ليست عنوان مقالات لاتين فني مهندسي Achieving efficient and stable comanipulation through adaptation to changes in human arm impedance Achromatically injection-seeded terahertz-wave parametric generator

<< مقالات لاتين فني مهندسي >>

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1

Achieving efficient and stable comanipulation through adaptation to changes in human arm impedance

2

Achieving efficient channel utilization and weighted fairness for data communications in IEEE 802.11 WLAN under the DCF

3

Achieving efficient channel utilization using dynamic coverage control in IEEE 802.11

4

Achieving Efficient Cooperative Message Authentication in Vehicular Ad Hoc Networks

5

Achieving efficient data fusion through integration of sensory perception control and sensor fusion

6

Achieving efficient dense matching for uncalibrated images

7

Achieving Efficient Distributed Scheduling with Message Queues in the Cloud for Many-Task Computing and High-Performance Computing

8

Achieving Efficient Flooding by Utilizing Link Correlation in Wireless Sensor Networks

9

Achieving efficient multi-sensory perception through predictive correction of monitoring errors

10

Achieving efficient network resources utilization in bicasting Proxy Mobile IPv6

11

Achieving efficient packet-based memory system by exploiting correlation of memory requests

12

Achieving efficient wide-band operation with short antennas

13

Achieving e-health care in a distributed EHR system

14

Achieving e-Inclusion: Building an African digital agenda

15

Achieving elastic stability of concentric tube robots through optimization of tube precurvature

16

Achieving elasticity for cloud MapReduce jobs

17

Achieving electric field steering in deep brain stimulation

18

Achieving Electromagnetic Compatibility In The Royal Navy

19

Achieving Electromagnetic Compatibility: Accident or Design

20

Achieving electrothermal stability in interconnect metal during ESD pulses

21

Achieving elementary cycle synchronization between masters in the flexible time-triggered replicated star for ethernet

22

Achieving EMC compliance by design - case study of fixed remote station in corDECT WLL system

23

Achieving EMC emissions compliance for an aeronautics power line communications system

24

Achieving EMC in a LDRS system [laser designation and rangefinding]

25

Achieving EMC in high frequency and high power switching environment on Radar Imaging Satellite

26

Achieving EMI compliance with DVI and HDMI on defense/aerospace platforms

27

Achieving employee safety-lessons from the railroad

28

Achieving end-to-end delay bounds by EDF scheduling without traffic shaping

29

Achieving End-to-End Diversity over ASON Architecture

30

Achieving end-to-end fairness in 802.11e based wireless multi-hop mesh networks

31

Achieving end-to-end goals of WSN using Weighted Cognitive Maps

32

Achieving end-to-end predictability in the TAO Real-time CORBA ORB

33

Achieving end-to-end real-time Quality of Service with Software Defined Networking

34

Achieving end-to-end throughput guarantee for TCP flows in a differentiated services network

35

Achieving Energy Conservation, Coverage and Connectivity Requirements in Wireless Sensor Networks

36

Achieving energy diversity with multiple energy harvesting relays

37

Achieving energy efficiency and increasing network life in wireless sensor network

38

Achieving Energy Efficiency and QoS for Low-Rate Applications with 802.11e

39

Achieving Energy Efficiency and Reliability for Data Dissemination in Duty-Cycled WSNs

40

Achieving energy efficiency by HW/SW co-design

41

Achieving Energy Efficiency by Optimal Resource Utilisation in Cloud Environment

42

Achieving energy efficiency by self-adjusting sensing range and positioning in wireless sensor networks

43

Achieving Energy Efficiency Fairness in Multicell MISO Downlink

44

Achieving energy efficiency for Device to Device communications using power control: A low complexity algorithm

45

Achieving energy efficiency in Body Area Networks (BAN´s) through avoiding spatially correlated contention

46

Achieving energy efficiency in LTE with joint D2D communications and green networking techniques

47

Achieving energy efficiency in restructured markets, implications for IRP

48

Achieving Energy Efficiency via Drowsy Transmission in Cognitive Radio

49

Achieving Energy Efficiency with Transmission Pushbacks in Sensor Networks

50

Achieving energy efficient and reliable communication in WSN with coded GMSK system under various channel conditions

51

Achieving energy efficient and secure communication in wireless sensor networks

52

Achieving energy efficient data centers using cooling path management coupled with ASHRAE standards

53

Achieving Energy Efficient Transmission in Wireless Body Area Networks for the Physiological Monitoring of Military Soldiers

54

Achieving energy savings and thermal comfort through intermittent heating in very low energy buildings

55

Achieving energy-efficiency and on-time performance with Driver Advisory Systems

56

Achieving energy-efficiency on MPSoCs: performance and power optimizations

57

Achieving energy-efficiency with a next generation NVRAM-based SSD

58

Achieving energy-efficient distributed consensus in wireless scale free networks

59

Achieving energy-proportionality in fat-tree DCNs

60

Achieving enhanced product EMC in high volume home appliance manufacturing

61

Achieving Enterprise Architecture Benefits: What Makes the Difference?

62

Achieving environmental tolerance through the initiation and exploitation of external information

63

Achieving equilibrium and local incentive compatibility for electricity markets by using redundant constraints

64

Achieving Ergodicity in Quasi-Static MIMO With Polynomial-Time Complexity and One Bit of Feedback

65

Achieving evenly distributed sensor lifetime in large scale wireless sensor networks

66

Achieving exact cluster recovery threshold via semidefinite programming

67

Achieving exact cluster recovery threshold via semidefinite programming under the stochastic block model

68

Achieving Exascale Capabilities through Heterogeneous Computing

69

Achieving excellence in Electronic Health Record deployment in Middle East hospitals

70

Achieving excellence in engineering education through improved teaching-learning process

71

Achieving excellence in technical communication classes by using IEEE Spectrum magazine & active learning techniques

72

Achieving excellence in the global marketplace using knowledge-based simulation

73

Achieving Experiential Cross-cultural Training Through a Virtual Teams Project

74

Achieving exponential diversity in All fading channels

75

Achieving Exponential Diversity in Wireless Multihop Systems with Regenerative Relays

76

Achieving exponential diversity with spatiotemporal power allocation with imperfect channel state information

77

Achieving extended displays prototype via Wi-Fi direct technology

78

Achieving Extreme Resolution in Numerical Cosmology Using Adaptive Mesh Refinement: Resolving Primordial Star Formation

79

Achieving extreme scan compression for SoC Designs

80

Achieving fair and high packet-level throughput in ABR service

81

Achieving fair bandwidth allocation without per-flow state

82

Achieving fair cooperation for multi-hop ad hoc networks

83

Achieving fair network equilibria with delay-based congestion control algorithms

84

Achieving fair non-repudiation for web services transaction

85

Achieving Fair or Differentiated Cache Sharing in Power-Constrained Chip Multiprocessors

86

Achieving Fair Performance by Power Allocation in Opportunistic Cooperation

87

Achieving fair scheduling over error-prone channels in multirate WLANs

88

Achieving Fair Service with a Layered Scheduling Scheme for CICQ Switches

89

Achieving Fair TCP Access in the IEEE 802.11 Infrastructure Basic Service Set

90

Achieving Fair Throughput for TCP Flows in Multi-Hop Wireless Backhaul Networks

91

Achieving fairness and efficiency for association control in the heterogeneous wireless networks

92

Achieving fairness and throughput for best-effort traffic in input-queued crossbar switches

93

Achieving fairness and timeliness in a previous electronic contract signing protocol

94

Achieving Fairness Between Uplink and Downlink Flows in Error-Prone WLANs

95

Achieving fairness for multi-class traffic in directional multi-interface IEEE 802.11s MCCA

96

Achieving fairness in distributed cognitive radio networks using a timer mechanism

97

Achieving fairness in distributed scheduling in wireless ad-hoc networks

98

Achieving Fairness in IEEE 802.11 Ad Hoc Networks

99

Achieving fairness in IEEE 802.11 DFWMAC with variable packet lengths

100

Achieving fairness in lossy 802.11e wireless multi-hop mesh networks

101

Achieving fairness in wireless environment

102

Achieving Fairness in Wireless LANs by Enhanced IEEE 802.11 DCF

103

Achieving Fairness, Simplicity, and Near Optimal Performance in Rate Adaptation Algorithms for Wireless Multiuser OFDM Systems

104

Achieving fanout capabilities in single electron encoded logic networks

105

Achieving fast and bandwidth-efficient shared-path protection

106

Achieving fast and exact hazard-free logic minimization of extended burst-mode gC finite state machines

107

Achieving fast motions in semiconductor manufacturing machinery

108

Achieving Faster Access to Satellite Link Bandwidth

109

Achieving faster access to satellite link bandwidth

110

Achieving faster failure detection in OSPF networks

111

Achieving fault secureness in parity prediction arithmetic operators: general conditions and implementations

112

Achieving Fault Tolerance in Data Aggregation in Wireless Sensor Networks

113

Achieving fault tolerance in factory automation systems by dynamic configuration

114

Achieving fault tolerance in FTT-CAN

115

Achieving fault tolerance in multichannel control systems

116

Achieving Fault Tolerance on Grids with the CPPC Framework and the GridWay Metascheduler

117

Achieving fault-tolerance by shifted and rotated operands in TMR non-diverse ALUs

118

Achieving fault-tolerant multicast in injured wormhole-routed tori and meshes based on Euler path construction

119

Achieving fault-tolerant software with rejuvenation and reconfiguration

120

Achieving Fellow Grade through CSS

121

Achieving fill factor above 80% in organic solar cells by charged interface

122

Achieving Fill Factor Above 80% in Organic Solar Cells by Charged Interface

123

Achieving Filter Effectiveness and Insuring Reliability

124

Achieving fine absolute positioning accuracy in large powerful manipulators

125

Achieving flexibility in a Viterbi decoder DSP coprocessor

126

Achieving flexibility in business process modeling using an algebraic language

127

Achieving flexibility in direct-manipulation programming environments by relaxing the edit-time grammar

128

Achieving flexibility in LDPC code design by absorbing set elimination

129

Achieving Flexible and Compliant Processes in Disaster Management

130

Achieving Flexible Cache Consistency for Pervasive Internet Access

131

Achieving flexible waveform and data routing with the Programmable Space IP Modem

132

Achieving Flow Level Constant Performance Guarantees for CICQ Switches without Speedup

133

Achieving Flow-Level Controllability in Network Intrusion Detection System

134

Achieving fluency through perceptual-symbol practice in human-robot collaboration

135

Achieving force perception in master-slave manipulators using pneumatic artificial muscles

136

Achieving formations under medium access, relative position and velocity constraints

137

Achieving Forward Secrecy and Unlinkability in Cloud-Based Personal Health Record System

138

Achieving frequency-agile radio

139

Achieving frontline communication excellence: the potential cost to health

140

Achieving full 1.8 MJ, 500 TW laser performance on the national ignition facility

141

Achieving full cooperative and frequency diversity in bit-interleaved coded two-way relay networks

142

Achieving full diversity and fast ML decoding via simple analog network coding for asynchronous two-way relay networks

143

Achieving full diversity and full rate with energy spreading transform for MIMO systems

144

Achieving Full Diversity by Selection in Arbitrary Multi-Hop Amplify-and-Forward Relay Networks

145

Achieving full diversity in MIMO radar: Code Construction and performance bounds

146

Achieving Full Diversity in Multi-Antenna Two-Way Relay Networks via Symbol-Based Physical-Layer Network Coding

147

Achieving Full Diversity over the MIMO Fading Channel with Space-Time Precoders and Iterative Linear Receivers

148

Achieving Full Frequency and Space Diversity in Wireless Systems via BICM, OFDM, STBC, and Viterbi Coding

149

Achieving Full Frequency and Space Diversity in Wireless Systems via BICM, OFDM, STBC, and Viterbi Decoding

150

Achieving full fungibility and Quick Changeover by turning knobs in tape and Reel machine by applying SMED theory

151

Achieving full media interoperability using information systems and indexing schemes

152

Achieving Full Multiplexing Gain of MIMO Systems Using Adaptive Modulation and Coding

153

Achieving full parallelism using multidimensional retiming

154

Achieving Full Plan Multimodality by Integrating Multiple Incomplete Journey Planners

155

Achieving Full Rate Network Coding with Constellation Compatible Modulation and Coding

156

Achieving Full Secrecy Rate with Low Packet Delays: An Optimal Control Approach

157

Achieving Full Security in Privacy-Preserving Data Mining

158

Achieving full spatial and multi-path diversity with cyclically delay shift receiver for SC-FDE system

159

Achieving full spatial multiplexing and full diversity in wireless communications

160

Achieving Full Sum DoF in the SISO Interference Channel With Feedback Delay

161

Achieving full transmit diversity for PPM constellations with any number of antennas via double position and symbol permutations

162

Achieving Full View Coverage with Randomly-Deployed Heterogeneous Camera Sensors

163

Achieving full-color organic light-emitting devices for lightweight, flat-panel displays

164

Achieving full-diversity and fast maximum likelihood decoding in asynchronous analog network coding

165

Achieving gaussian multiple access channel capacity with spatially coupled sparse graph multi-user modulation

166

Achieving Gbps Throughput for Millimeter-Wave WPAN with an Anti-Blocking Scheme Using Deflection Routing

167

Achieving general points in the 2-user Gaussian MAC without time-sharing or rate-splitting by means of iterative coding

168

Achieving generalized object recognition through reasoning about association of function to structure

169

Achieving generation dispatch efficiency through centralized optimization: Wisdom or heresy? The South American way

170

Achieving Glitch-Free Clock Domain Crossing Signals Using Formal Verification, Static Timing Analysis, and Sequential Equivalence Checking

171

Achieving Global End-to-End Maxmin in Multihop Wireless Networks

172

Achieving Global Fairness for On-Chip Network Using Group Allocation

173

Achieving Global Optimality for Joint Source and Relay Beamforming Design in Two-Hop Relay Channels

174

Achieving Global Optimality for Weighted Sum-Rate Maximization in the K-User Gaussian Interference Channel with Multiple Antennas

175

Achieving global stability through local controls

176

Achieving Goals Through Interaction With Sensors And Actuators

177

Achieving good benefits and managing the change [office technology]

178

Achieving good correlation results between bitmap and TENCOR data

179

Achieving good performance for dictionary machines; a scalable distributed data balancing technique

180

Achieving good performance in global attitude stabilization

181

Achieving greater automation in fibre channel test equipment for parametric and ASM protocol analysis and testing [military avionics]

182

Achieving greater on-wafer S-parameter accuracy with the LRM calibration technique

183

Achieving greater VVO benefits through AMI implementation

184

Achieving green computing by effective utilization of cloud resources using a cloud OS

185

Achieving green LTE-A HetNets with D2D traffic offload and renewable energy powered small cell BSs

186

Achieving greener and lower cost data centers through PHM

187

Achieving Group Cohesion using Information Technology Tools: A Systems Perspective

188

Achieving group undo in bitmap-based collaborative editing systems

189

Achieving groupware flexibility through metamodel mappings

190

Achieving Guaranteed Anonymity in GPS Traces via Uncertainty-Aware Path Cloaking

191

Achieving guaranteed connected coverage by using virtual hexagonal partition in wireless sensor networks

192

Achieving guaranteed performance on computational Grid

193

Achieving Handoff Optimization and Throughput Efficiency in Vehicular Networks

194

Achieving Haptic Perception in Forceps’ Manipulator Using Pneumatic Artificial Muscle

195

Achieving hardware security for reconfigurable systems on chip by a proof-carrying code approach

196

Achieving hardware-efficient neural network based pattern recognition system through linear approximation

197

Achieving heterogeneity and fairness in Kademlia

198

Achieving heterogeneous packet-optical networks inter-connection with a software-defined unified control architecture

199

Achieving high absolute accuracy for Group-delay measurements using the Modulation phase-shift technique

200

Achieving High Availability at the Application Level in the Cloud

201

Achieving high availability in a replicated file system by dynamically ordering transactions

202

Achieving high availability in distributed databases

203

Achieving high availability in distributed databases

204

Achieving high availability in wireless networks by an optimal number of Rayleigh-fading links

205

Achieving High Availability of Consistent Data in the Presence of Network Partitions

206

Achieving High Bandwidth Efficiency under Partial-Band Noise Jamming

207

Achieving High Branch Coverage with Fewer Paths

208

Achieving high capacities in CDMA systems using multiuser detection based on BLAST

209

Achieving high capacity with small cells in LTE-A

210

Achieving high container through-put rates, between vessels in High Seas (a vision of HiCASS)

211

Achieving high counting rates in superconducting nanowire single-photon detectors

212

Achieving high data compression of self-similar satellite images using fractal

213

Achieving High Data Rate in Multiband-OFDM UWB Over Power-Line Communication System

214

Achieving high data rates in CDMA systems using BLAST techniques

215

Achieving high data rates on the UMTS downlink shared channel using multiple antennas

216

Achieving high directivity-bandwidth through flat GRIN superstrates in Fabry-Perot cavity antennas

217

Achieving high efficiency in a double conversion transformerless UPS

218

Achieving High Efficiency in Membership Proof without Compromising or Weakening any Security Property

219

Achieving high efficiency using SiC MOSFETs and reduced output filter for grid-connected V2G inverter

220

Achieving high efficiency with conventional railgun launchers

221

Achieving high efficient Byzantine agreement with dual components failure mode on a multicasting network

222

Achieving High Field-Effect Mobility Exceeding 50 cm $(^{math\\rm {2}})$ /Vs in In-Zn-Sn-O Thin-Film Transistors

223

Achieving High Frequency Diversity with Subcarrier Allocation in OFDMA Systems

224

Achieving high frequency reuse in dense cellular networks: A matrix graph approach

225

Achieving high gain and large bandwidth using hybrid DR antennas to feed short horns

226

Achieving high gate quality by wet process improvement

227

Achieving High Goodput Performance in Mars Missions through Application Layer Coding and Transmission Power Trading

228

Achieving high input power factor for DCM boost PFC converters by controlling variable duty cycle

229

Achieving High Instruction Cache Performance With An Optimizing Compiler

230

Achieving high integrity of process control software by graphical design and formal verification

231

Achieving High Lifetime and Low Delay in Very Large Sensors Networks Using Mobile Sinks

232

Achieving high luminosity in the Fermilab Tevatron

233

Achieving high microprocessor manufacturing output-the Copy Exactly! method

234

Achieving high mobilities in solution-processable organic FETs by minimizing contact effects

235

Achieving High Multi-Modal Registration Performance Using Simplified Hough-Transform with Improved Symmetric-SIFT

236

Achieving high navigation accuracy using inertial navigation systems in autonomous underwater vehicles

237

Achieving High Performance Burst Transmission for Bursty Traffic using Optical Burst Chain Switching in WDM Networks

238

Achieving high performance in bus-based shared-memory multiprocessors

239

Achieving high performance in CORBA-based systems with limited heterogeneity

240

Achieving High Performance Oxide TFT-Based Inverters by Use of Dual-Gate Configurations With Floating and Biased Secondary Gates

241

Achieving high performance teamwork in a semiconductor manufacturing operation

242

Achieving high performance to support multicast traffic in a parallel packet switch with space division multiplexing expansion

243

Achieving high performance via co-designed virtual machines

244

Achieving high performance web applications by service and database replications at edge servers

245

Achieving High Performance with FPGA-Based Computing

246

Achieving High Performance With TCP Over 40 GbE on NUMA Architectures for CMS Data Acquisition

247

Achieving high performance with TCP over 40GbE on NUMA architectures for CMS data acquisition

248

Achieving high precision in NMR flux density and /spl gamma/´/sub p/ measurements-accounting for the asymmetric line

249

Achieving high precision laparoscopic manipulation through adaptive force control

250

Achieving high pressure shock Hugoniot measurements in cylindrical geometry utilizing a high-explosive pulsed power drive

251

Achieving high quality in outsourcing reengineering projects throughout extreme programming

252

Achieving high rates with CsI(Tl)-photomultiplier detectors

253

Achieving high reliability and quality in the acquisition of US DoD electronics

254

Achieving high reliability in Aerial-Terrestrial networks: Opportunistic space-time coding

255

Achieving high reliability low cost lead-free SAC solder joints via Mn or Ce doping

256

Achieving High Reliability on Linux for K2 System

257

Achieving high reliability via pressureless sintering of nano-Ag paste for die-attach

258

Achieving high resolution and long depth of field in ultrasonic B-mode images-a comparative study of restoration and multiple focusing techniques

259

Achieving high resolution for super-resolution via reweighted atomic norm minimization

260

Achieving high robustness and performance in performing QoS-aware route planning for IPTV networks

261

Achieving High Robustness in Supply Distribution Networks by Rewiring

262

Achieving high spectral efficiency in long-haul transmission with pre-filtering and multi-symbol detection

263

Achieving High Spectral Efficiency with Adaptive Layered Space Time Codes under Rate Control

264

Achieving high speed RFID die pick and place operation

265

Achieving High Sustained Performance in an Unstructured Mesh CFD Application

266

Achieving High Test Quality with Reduced Pin Count Testing

267

Achieving high throughput and low delay by accurately regulating link queue length over mobile data network

268

Achieving High Throughput by Transparent Network Interface Virtualization on Multi-core Systems

269

Achieving high throughput for data transfer over ATM networks

270

Achieving High Throughput Ground-to-UAV Transport via Parallel Links

271

Achieving High Throughput in High-Radix Switch

272

Achieving high transition delay fault coverage with partial DTSFF scan chains

273

Achieving High Transparency in Bilateral Teleoperation Using Stiffness Observer for Passivity Control

274

Achieving high utilization in guaranteed services networks using early-deadline-first scheduling

275

Achieving high voltage dielectric breakdown of turbine generator stator coils using capacitors

276

Achieving high workability in high-end package by controlling microstructure of 4N Cu wire

277

Achieving high-accuracy distributed localization in sensor networks

278

Achieving high-accuracy relative positioning in real-time: system design, performance and real-time results

279

Achieving high-bandwidth nanopositioning in presence of plant uncertainties

280

Achieving high-bitrate overlay live streaming with proxy helpers

281

Achieving High-Capacity Narrowband Cellular Systems by Means of Multicell Multiuser Detection

282

Achieving high-capacity wireless by merging multicarrier CDMA systems and oscillating-beam smart antenna arrays

283

Achieving high-dependability optimal multicast in Wireless Mesh Networks

284

Achieving high-diversity in MB-OFDM systems

285

Achieving higher dependability by integrating replication with DNS dispatching in the web-server cluster systems

286

Achieving higher dynamic range in flash A/D converters

287

Achieving higher frequencies in large-scale nonlinear model predictive control

288

Achieving higher HSDPA performance and preserving R99 soft handover control by large scale optimization in CPICH coverage planning

289

Achieving higher levels of CMMI maturity using simulation

290

Achieving higher levels of electronic integration through system-on-chip

291

Achieving higher levels of electronic integration through system-on-chip

292

Achieving higher margins by solving the mobile flash test challenge

293

Achieving Higher Modulation Efficiency in Electrooptic Polymer Modulator With Slotted Silicon Waveguide

294

Achieving higher perceptual quality and robustness in watermarking using julian set patterns

295

Achieving higher performance of memcached by caching at network interface

296

Achieving higher power density in DC-DC converters for photovoltaic applications

297

Achieving Higher Reliability through Self-Repair

298

Achieving Higher Resolution ISAR Imaging With Limited Pulses via Compressed Sampling

299

Achieving higher SEI levels

300

Achieving higher throughput in ieee 802.11 wireless local area networks with burst transmission methods

301

Achieving higher throughput in STBC-OFDM systems using non-linear modulation techniques

302

Achieving higher uplink performance and capacity via non-overlapping window adaptive maximum noise fraction beamforming technique

303

Achieving higher yield through diagnosis

304

Achieving higher yield through diagnosis?

305

Achieving higher yield through diagnosis-the ASIC perspective

306

Achieving higher-order Bézier Curve based on the application of probability calculation method

307

Achieving High-Level QoS in Multi-Party Video-Conferencing Systems via Exploitation of Global Time

308

Achieving Highly Localized Effective Magnetic Fields With Non-Uniform Rashba Spin-Orbit Coupling for Tunable Spin Current in Metal/Semiconductor/Metal Structures

309

Achieving high-performance Ge MOS devices using high-к gate dielectrics Ga2O3(Gd2O3) of sub-nm EOT

310

Achieving High-Performance On-Chip Networks With Shared-Buffer Routers

311

Achieving high-performance poly-Si TFTs by structural engineering

312

Achieving High-Performance Video Analytics with Lightweight Cores and a Sea of Hardware Accelerators

313

Achieving high-quality systems: making CASE work in your organization

314

Achieving High-Quality Three-Dimensional InISAR Imageries of Maneuvering Target via Super-Resolution ISAR Imaging by Exploiting Sparseness

315

Achieving High-Rate Multi-Hop Data Delivery in Vehicular Networks

316

Achieving high-speed box-to-box interconnects in space

317

Achieving High-Throughput State Machine Replication in Multi-core Systems

318

Achieving Honest Ratings with Reputation-Based Fines in Electronic Markets

319

Achieving host mobility using DNS dynamic updating protocol

320

Achieving HRWS Images with Space-borne Bistatic SAR with Multiple Phase Centers

321

Achieving human-agent teamwork in eHealth based pervasive intelligent environments

322

Achieving Human-Aware Seamless Handoff

323

Achieving Humanlike Motion: Resolving Redundancy for Anthropomorphic Industrial Manipulators

324

Achieving I/sub DDQ/I/sub SSQ/ production testing with QuiC-

325

Achieving IEC Type 2 short circuit coordination

326

Achieving IEC type 2 short circuit coordination

327

Achieving impedance objectives in robot teleoperation

328

Achieving imperceptibility in all-pass watermarking of speech signals

329

Achieving Improved Position Detection Using a Modified Triangular Perturbation Signal

330

Achieving individual feedback through the on-line educational platform

331

Achieving industrial relevance in software engineering education

332

Achieving industrial relevance with academic excellence: lessons from the Oregon master of software engineering

333

Achieving information dependability in Grids through GDS²

334

Achieving information flow security through precise control of effects

335

Achieving Information Security in Network Computing Systems

336

Achieving instrument interchangeability with IVI instrument drivers

337

Achieving integrated consistency maintenance and awareness in real-time collaborative programming environments: The CoEclipse approach

338

Achieving Integrated Order Management In A Major Steel Business

339

Achieving integration in a development environment

340

Achieving integrity in an INS/GPS navigation loop for autonomous land vehicle applications

341

Achieving integrity in methods and language

342

Achieving Intention-Centric BPM through Automated Planning

343

Achieving inter-connection in multi-vendor multi-domain heterogeneous optical networks

344

Achieving Internet of Things security via providing topological sustainability

345

Achieving interoperability between CORBA and DCE applications using bridges

346

Achieving interoperability between heterogeneous object-oriented genomic databases

347

Achieving Interoperability Between PowerPoint and Similar Presentation Tools

348

Achieving Interoperability in Conditional Access Systems through the Dynamic Download and Execution of Cryptographic Software for the IPTV System

349

Achieving interoperability in grid-enabled virtual organisations

350

Achieving interoperability of genome databases through intelligent Web mediators

351

Achieving interoperability through ODP trading function

352

Achieving interoperability with distributed relational databases

353

Achieving inter-receiver fairness utilizing layered media multicast control (LMMC)

354

Achieving inter-session fairness for layered video multicast

355

Achieving inter-session fairness for layered video multicast

356

Achieving invisibility with a tunable cloaking device

357

Achieving IP routing stability with optical bypass

358

Achieving IP-multicast functionality in the asynchronous transfer mode environment

359

Achieving IPTV service portability through delegation

360

Achieving Isotropic Permeability for Integrated Inductors

361

Achieving IT security in a Telematic Rescue Assistance System

362

Achieving IT-Enabled Enterprise Agility in China: An IT Organizational Identity Perspective

363

Achieving Joint Diversity in Decode-and-Forward MIMO Relay Networks with Zero-Forcing Equalizers

364

Achieving joint diversity in MIMO relay networks with low-complexity equalizers

365

Achieving K-anonymity in mobile ad hoc networks

366

Achieving k-anonymity in privacy-aware location-based services

367

Achieving k-Barrier Coverage in Hybrid Directional Sensor Networks

368

Achieving knowledge management through Cloud Computing: A case in higher education

369

Achieving language independence with Paragon

370

Achieving large bandwidth by leveraging parallelism in end-hosts and networks

371

Achieving Large Dynamic Aperture in the ILC Damping Rings

372

Achieving large multiplexing gain in distributed antenna systems via cooperation with pCell technology

373

Achieving large spectral efficiencies from MU-MIMO with tens of antennas: Location-adaptive TDD MU-MIMO design and user scheduling

374

Achieving large spectral efficiency with TDD and not-so-many base-station antennas

375

Achieving Leaner Software [Best Practices]

376

Achieving learning object interoperability and reusability through object orientation

377

Achieving Learning Objectives through E-Voting Case Studies

378

Achieving Less Than 2% 3- σ Mismatch With Minimum Channel-Length CMOS Devices

379

Achieving lifestyle aspirations through assisted living technology

380

Achieving Lightweight and Secure Access Control in Multi-authority Cloud

381

Achieving linear scaling with interference alignment

382

Achieving linearity for outphasing amplifiers targeting LTE applications and beyond

383

Achieving Linguistic Provenance via Plagiarism Detection

384

Achieving Little Goals in Language Design and Implementation

385

Achieving load balancing in heterogeneous peer-to-peer netjworks by allocating and reallocating process

386

Achieving Load Balancing in Wireless Mesh Networks Through Multiple Gateways

387

Achieving locally minimal burst blocking in OBS networks with delayed scheduling

388

Achieving logical data independence in hypermedia databases

389

Achieving log-utility fairness in CDMA systems via majorization theory

390

Achieving Long Range Communication in Cars

391

Achieving long reading ranges with passive wireless intermodulation sensors

392

Achieving long repeaterless sections in high-density metropolitan WDM networks

393

Achieving Long-Term Fairness and Optimum Multiuser Diversity Gain in Time-Varying Broadcast Channels

394

Achieving Long-Term Surveillance in VigilNet

395

Achieving loop-free incremental routing in ad hoc networks

396

Achieving low approach noise without sacrificing capacity

397

Achieving low carbon buildings through policy instruments — Sharing the Trakhees-EHS Dubai experience

398

Achieving low end-to-end latency with a Handoff-based Deterministic Routing Protocol (HDRP) in Delay-Tolerant Networking

399

Achieving low latency and energy consumption by 5G TDD mode optimization

400

Achieving Low Latency of Multimedia Content Browsing in UPnP AV Architectures

401

Achieving low latency, reduced memory footprint and low power consumption with data streaming

402

Achieving low loss and low nonlinearity in hollow core photonic crystal fibers

403

Achieving low outage probability with network coding in wireless multicarrier multicast systems

404

Achieving low temperature Cu to Cu diffusion bonding with self assembly monolayer (SAM) passivation

405

Achieving Low Vt (≪-0.3V) and Thin EOT (~1.0nm) in Gate First Metal/High-k pMOSFET for High Performance CMOS Applications

406

Achieving low VT Ni-FUSI CMOS via lanthanide incorporation in the gate stack

407

Achieving Low- $V_{T}$ Ni-FUSI CMOS by Ultra-Thin $\\hbox {Dy}_{2}\\hbox {O}_{3}$ Capping of Hafnium

408

Achieving low-carbon economy by disruptive innovation in China

409

Achieving low-cost high-reliability computation through redundant parallel processing

410

Achieving Low-Cost Linearity Test and Diagnosis of Sigma Delta ADCs via Frequency-Domain Nonlinear Analysis and Macromodeling

411

Achieving Lower Delay with Energy Efficiency in Extremely Low-Duty-Cycle and Unreliable WSN

412

Achieving Lower Distortion with Lattice Strategies in Multicast Wireless Networks

413

Achieving low-overhead fault tolerance for parallel accelerators with dynamic partial reconfiguration

414

Achieving low-porosity sintering of nano Ag paste via pressureless process

415

Achieving Low-Power Consumption by Using Fractal Coding in PVP

416

Achieving MAC fairness in wireless ad-hoc networks using adaptive transmission control

417

Achieving MAC layer fairness in wireless mesh backbone based vehicular network

418

Achieving MAC-Layer Fairness in CSMA/CA Networks

419

Achieving magnitude order improvement in Porter stemmer algorithm over multi-core architecture

420

Achieving MAI cancellation in an asynchronous DS/CDMA system by optimum single-user detection

421

Achieving maintenance operations excellence through the RCM program

422

Achieving Managerial Goals in Business Process Components Design Using Genetic Algorithms

423

Achieving Market Responsiveness: The Enabling Role of IT and E-Commerce Adoption in SMEs

424

Achieving Marton’s Region for Broadcast Channels Using Polar Codes

425

Achieving Marton´s region for broadcast channels using polar codes

426

Achieving material limit characteristics in silicon power devices

427

Achieving Maximum Degrees of Freedom of Two-Hop MIMO Alternate Half-Duplex Relaying System For Linear Transceivers: A Unified Transmission Framework for DF and AF Protocols

428

Achieving Maximum Efficiency in Three-Phase Systems With a Shunt Active Power Compensator Based on IEEE Std. 1459

429

Achieving Maximum Energy-Efficiency in Multi-Relay OFDMA Cellular Networks: A Fractional Programming Approach

430

Achieving maximum performance for matrix multiplication using set associative cache

431

Achieving maximum performance: A method for the verification of interlocked pipeline control logic

432

Achieving Maximum Possible Download Speed on ADSL Systems

433

Achieving maximum possible power factor with single-phase shunt active power filter under distorted supply condition

434

Achieving maximum power efficiency of a novel rectifier charge pump by impedance matching in an energy harvester suited for self-powered sensors

435

Achieving maximum power transfer in a multisource renewable system

436

Achieving maximum regions of attraction for unstable linear systems with control constraints

437

Achieving maximum spatial diversity with decouple-and-forward relaying in dual-hop OSTBC transmissions

438

Achieving maximum system throughput with cooperative relaying: A case study of IEEE 802.16j multi-hop relay

439

Achieving maximum throughput and minimum delay in heterogeneous Peer-to-Peer streaming networks

440

Achieving Maximum Throughput in Random Access Protocols with Multipacket Reception

441

Achieving maximum throughput with a minimum number of label switched paths in MPLS networks

442

Achieving Maximum Weighted Sum-Rate in Multicell Downlink MISO Systems

443

Achieving maximum-efficiency tracking control for backlight electronic ballast with phase-locked loop techniques

444

Achieving max-min fairness for MU-MISO with partial CSIT: A multicast assisted transmission

445

Achieving max-min fairness in WDM optical burst switching networks

446

Achieving medical device EMC: the role of regulations, standards, guidelines and publications

447

Achieving Memetic Adaptability by Means of Agent-Based Machine Learning

448

Achieving memetic adaptability by means of fuzzy decision trees

449

Achieving Memory Access Equalization Via Round-Trip Routing Latency Prediction in 3D Many-Core NoCs

450

Achieving METARING performance without insertion buffers

451

Achieving Microaggregation for Secure Statistical Databases Using Fixed-Structure Partitioning-Based Learning Automata

452

Achieving middleware customization in a configuration-based development environment: experience with the Aster prototype

453

Achieving MIMO channel capacity using multirate layered space-time coding architectures

454

Achieving MIMO performance with single-antenna radios

455

Achieving minimal and deterministic interrupt execution in stack-based processor architectures

456

Achieving minimal hardware multiple signature analysis for BIST

457

Achieving minimum coverage breach under bandwidth constraints in wireless sensor networks

458

Achieving Minimum Latency in Multi-Hop MAC Protocol for Wireless Sensor Networks

459

Achieving minimum slice loss for real time MPEG 2 based video networking in a flow-oriented input-queued ATM switching router system

460

Achieving minimum-cost multicast: a decentralized approach based on network coding

461

Achieving minimum-routing-cost maximum-flows in infrastructure wireless mesh networks

462

Achieving mobility on demand using autonomous vehicles

463

Achieving moderate fairness for UDP flows by path-status classification

464

Achieving modified CRLB for estimating carrier phase offset through LS and MLE

465

Achieving modularity with tightly-coupled GPS/INS

466

Achieving monitoring of buildings´ fresh wind system by applying configuration software

467

Achieving Monotonic Variation of Spectral Composition in DC–DC Converters Using Pulse Skipping Modulation

468

Achieving Multi-Authority Access Control with Efficient Attribute Revocation in smart grid

469

Achieving multi-class service differentiation in WDM optical burst switching networks: a probabilistic preemptive burst segmentation scheme

470

Achieving multigauge behavior in bit-serial SIMD architectures via emulation

471

Achieving Multi-Level Parallelism in the Filter-Labeled Stream Programming Model

472

Achieving multimedia communications on a heterogeneous network

473

Achieving multiple degrees of freedom in long-range mm-wave MIMO channels using randomly distributed relays

474

Achieving Multipurpose Space Imaging with the ARTEMIS Reconfigurable Payload Processor

475

Achieving Multi-user Diversity Gain using User-Identity Feedback

476

Achieving multiuser diversity under hard fairness constraints

477

Achieving Natural Clustering by Validating Results of Iterative Evolutionary Clustering Approach

478

Achieving Natural Mathematical Expression Programming on GPUs via Expression Templates

479

Achieving Near Capacity of Non-Binary LDPC Coded Large MIMO Systems with a Novel Ultra Low-Complexity Soft-Output Detector

480

Achieving near maximum throughput in IEEE 802.11 WLANs with contention tone

481

Achieving near zero SSN power delivery networks by eliminating power planes and using constant current power transmission lines

482

Achieving near-capacity at low SNR on a multiple-antenna multiple-user channel

483

Achieving near-capacity on a multiple-antenna channel

484

Achieving near-capacity on large discrete memoryless channels with uniform distributed selected input

485

Achieving near-capacity performance on multiple-antenna channels with a simple concatenation scheme

486

Achieving near-exponential diversity on uncoded low-dimensional MIMO, multi-user and multi-carrier systems without transmitter CSI

487

Achieving nearly 100% throughput without feedback in energy harvesting wireless networks

488

Achieving nearly free fermi-level movement and Vth engineering in Ga2O3(Gd2O3)/In0.2Ga0.8As

489

Achieving near-MLD performance with soft information-set decoders implemented in FPGAs

490

Achieving Near-Optimal Detection Using Adaptive Joint Combination of MLD and MMSE-SIC over Spatially Correlated MIMO Channels

491

Achieving near-optimal traffic engineering in hybrid Software Defined Networks

492

Achieving near-optimal traffic engineering solutions for current OSPF/IS-IS networks

493

Achieving near-optimal traffic engineering solutions for current OSPF/IS-IS networks

494

Achieving near-optimum asymptotic efficiency and fading resistance over the time-varying Rayleigh-faded CDMA channel

495

Achieving near-unity broadband absorption in sparse arrays of GaAs NWs via a fundamental understanding of localized radial modes

496

Achieving negative security gaps with transmit antenna selection and frame scrambling in quasi-static fading channels

497

Achieving Network Availability in a Multilayered Protocol Environment

498

Achieving network interconnection using satellite services

499

Achieving network on chip fault tolerance by adaptive remapping

500

Achieving network optima using Stackelberg routing strategies

501

Achieving network stability and user fairness through admission control of TCP connections

502

Achieving Network Stability through Convergence--Case Study of an E-Government Project Using Actor Network Theory

503

Achieving Network Wide Proportional Fairness: A Pricing Method

504

Achieving next generation performance of ion implanters with the Varian Control System (VCS)

505

Achieving Nextgen´s air traffic management operational improvements

506

Achieving Non-Inclusive Cache Performance with Inclusive Caches: Temporal Locality Aware (TLA) Cache Management Policies

507

Achieving non-polluting cache accessing by using data valid tag splitting

508

Achieving nonvanishing stability regions with high-gain cheap control using H/sup /spl infin// techniques: the second order case

509

Achieving non-zero information velocity in wireless networks

510

Achieving NTRU with Montgomery multiplication

511

Achieving O(N) in simulating the billiards problem in discrete-event simulation

512

Achieving Oblivious Transfer Capacity of Generalized Erasure Channels in the Malicious Model

513

Achieving oblivious transfer using weakened security assumptions

514

Achieving One Megawatt ERP in the UHF-TV Band

515

Achieving one-hop DHT lookup and strong stabilization by passing tokens

516

Achieving open access in Ethernet PON (EPON)

517

Achieving open interoperability in tactical remoted systems with COTS technology

518

Achieving operability via the mission system paradigm

519

Achieving operational efficiency with cloud based services

520

Achieving optimal Bayesian classification performance using a novel approach: the `race to the attractor´ neural network model

521

Achieving optimal detection through discrete diffusion equations

522

Achieving Optimal Distortion Exponent of Parallel Quasi-Static Fading Channel with Imperfect CST

523

Achieving Optimal Diversity-Multiplexing Tradeoff for Full-Duplex MIMO Multihop Relay Networks

524

Achieving optimal elastic traffic rewards in dynamic multichannel access

525

Achieving optimal illumination conditions using local search

526

Achieving Optimal Lightpath Scheduling in Survivable WDM Mesh Networks

527

Achieving optimal operating conditions in PI controlled biomass-fired boilers: Undemanding way for improvement of small-scale boiler effectiveness

528

Achieving Optimal Performance by Using the IEEE 802.11 MAC Protocol With Service Differentiation Enhancements

529

Achieving optimal rate-distortion performance in arbitrarily-shaped transform coding

530

Achieving Optimal Throughput and Near-Optimal Asymptotic Delay Performance in Multichannel Wireless Networks With Low Complexity: A Practical Greedy Scheduling Policy

531

Achieving Optimal Throughput in Cooperative Wireless Multihop Networks With Rate Adaptation and Continuous Power Control

532

Achieving Optimal Throughput Utility and Low Delay With CSMA-Like Algorithms: A Virtual Multichannel Approach

533

Achieving Optimality and Fairness in Autonomous Demand Response: Benchmarks and Billing Mechanisms

534

Achieving optimality in adaptive control: the “bet on the best” approach

535

Achieving optimized performance in frost heave protection systems for cryogenic storage vessels

536

Achieving optimum capacitor bank protection and control

537

Achieving optimum coded diversity with scalar codes

538

Achieving Optimum in-building Coverage of 3G Network in Malaysia

539

Achieving Optimum Manufacturing Yield for RF System-in-Package (SiP) Devices Through Process Sensitivity Analysis

540

Achieving optimum network throughput and service differentiation for IEEE 802.11e EDCA networks

541

Achieving Optimum Performance in a High Pressure Sodium Lighting System

542

Achieving optimum test by applying standardization

543

Achieving Optional Android Permissions without Operating System Modifications

544

Achieving organizational training objectives with short course development

545

Achieving Out-of-Order Performance with Almost In-Order Complexity

546

Achieving packet-level quality of service through scheduling in multirate WLANs

547

Achieving page-mapping FTL performance at block-mapping FTL cost by hiding address translation

548

Achieving parallel communication in distributed systems

549

Achieving Pareto optimal equilibria in energy efficient clustered ad hoc networks

550

Achieving Pareto Optimal Power Tracking Control for Interference Limited Wireless Systems via Multi-Objective H_2/H_infty Optimization

551

Achieving pareto optimality through distributed learning

552

Achieving Pareto-Efficient Bandwidth Allocations Using a Non-Monetary Mechanism

553

Achieving peak equipment performance [synthetic lubricants for maximum equipment performance]

554

Achieving Peer-to-Peer Telecommunication Services through Social Hashing

555

Achieving Perfect Hashing through an Improved Construction of Bloom Filters

556

Achieving Perfect Secrecy by pdf-Bandlimited Jamming

557

Achieving per-flow fair rate allocation within Diffserv

558

Achieving per-flow weighted rate fairness in a core stateless network

559

Achieving Performance and Availability Guarantees with Spot Instances

560

Achieving performance consistency in heterogeneous clusters

561

Achieving periodic leg trajectories to evolve a quadruped gallop

562

Achieving personal security in future domestic travel: technology and user needs

563

Achieving per-station fairness in IEEE 802.11 wireless LANs

564

Achieving per-stream QoS with distributed airtime allocation and admission control in IEEE 802.11e wireless LANs

565

Achieving phase and amplitude stability in pulsed superconducting cavities

566

Achieving physical data independence in hypermedia databases

567

Achieving Physical Layer Security / Privacy with Self-Wrapped OCDM Transmission

568

Achieving physical-layer secrecy via friendly jamming with dynamic role assignment for coordinating transmitters

569

Achieving physiologic perfusion with ventricular assist devices: comparison of control strategies

570

Achieving Plasticity in WDM Networks: Application of Biological Evolutionary Model to Network Design

571

Achieving platform leadership: Application of inverting and porting in system development

572

Achieving Platform-Independence Of Service Creation Through The Application-Oriented Parsing Language

573

Achieving portability and efficiency over chip heterogeneous multiprocessor systems

574

Achieving Portability and Performance through OpenACC

575

Achieving positive rate with undetectable communication over AWGN and Rayleigh channels

576

Achieving positive rate with undetectable communication Over MIMO rayleigh channels

577

Achieving positive rates over AWGN channels with quantized feedback and linear processing

578

Achieving power and reliability sign-off for automotive semiconductor designs

579

Achieving power efficiency through minimum cycle time in digital signal processor design

580

Achieving Power Transmission Enhancement by Using Nano-Rings Made of Silver Spheres

581

Achieving power-law placement in wireless sensor networks

582

Achieving practical MIMO network planning using the Two-Curve MIMO Performance Model

583

Achieving precise coordinated cluster time in a cluster environment

584

Achieving Predictable High Performance in Imbalanced Fat Trees

585

Achieving Predictable Performance with On-Chip Shared L2 Caches for Manycore-Based Real-Time Systems

586

Achieving primary secrecy in energy harvesting CRNs using stackelberg game

587

Achieving principled assuredly trustworthy composable systems and networks

588

Achieving privacy and security in multi-owner data outsourcing

589

Achieving privacy in trust negotiations with an ontology-based approach

590

Achieving Privacy of Data Requests in MANETs by Means of Piggybacking and Hop Modification

591

Achieving privacy preservation in WiFi fingerprint-based localization

592

Achieving Privacy-preserving Computation on Data Grids

593

Achieving Private, Scalable, and Precise Data Collection in Wireless Sensor Networks

594

Achieving Probabilistic Anonymity Against One-to-Multiple Linkage Attacks

595

Achieving probabilistic robustness for multiuser SIMO uplink with Gaussian channel uncertainty

596

Achieving product and service fast time to market objectives through technology management

597

Achieving Programming Model Abstractions for Reconfigurable Computing

598

Achieving proportional degradation areas for wireless adaptive multimedia networks

599

Achieving proportional delay differentiation efficiently

600

Achieving proportional fair throughput in multi-rate random access wireless networks

601

Achieving proportional fairness using local information in Aloha networks

602

Achieving Proportional Fairness via AP Power Control in Multi-Rate WLANs

603

Achieving proportional loss differentiation using probabilistic preemptive burst segmentation in optical burst switching WDM networks

604

Achieving proportional loss differentiation using RED with maximum drop probability adjustment

605

Achieving P-Sensitive K-Anonymity via Anatomy

606

Achieving QoS in NoC-based MPSoCs through Dynamic Frequency Scaling

607

Achieving QoS target via adaptive admission control strategy in channelized system

608

Achieving quadrilateral interoperability

609

Achieving Quality and Traceability in FPGA/ASIC Flows for DO-254 Aviation Projects

610

Achieving Quality in Open-Source Software

611

Achieving quality in the manufacture of connector contacts

612

Achieving quality levels of 100 DPM: it´s possible... but roll up your sleeves and be prepared to do some work

613

Achieving quality of service in real time network security

614

Achieving Quality of Service via packet distribution shaping

615

Achieving Quality of Service with Adaptation-based Programming for medium access protocols

616

Achieving quality product in a long term software product development in healthcare application using Lean and Agile principles: Software engineering and software development

617

Achieving quality software development for distributed environments

618

Achieving quality, excellence, and consistency in a global academy

619

Achieving query optimization using sparsity management in OLAP system

620

Achieving rail-to-rail input operation using level-shift multiplexing technique for all CMOS op-amps

621

Achieving ranked range query in smart grid auction market

622

Achieving Rate Two Space-Time-Frequency Codes for Multiband UWB-MIMO Communication Systems Using Rotated Multidimensional Modulation

623

Achieving Ratio Bandwidth of 25:1 From a Printed Antenna Using a Tapered Semi-Ring Feed

624

Achieving real benefits by distribution automation solutions

625

Achieving real benefits by distribution automation solutions

626

Achieving real-time communication over Ethernet with adaptive traffic smoothing

627

Achieving real-time economic dispatch in power networks via a saddle point design approach

628

Achieving Real-Time Efficiency for Adaptive Radar Pulse Compression

629

Achieving real-time Ethernet

630

Achieving real-time lip-synch via SVM-based phoneme classification and lip shape refinement

631

Achieving Real-Time Target Tracking UsingWireless Sensor Networks

632

Achieving Receiver Location Privacy in Mobile Ad Hoc Networks

633

Achieving reconfigurable service oriented applications using Model Driven Engineering

634

Achieving reduced EMI using microcontrollers with PLL oscillators

635

Achieving Reduced Production Cycle Times Via Effective Control of Key Factors of the P-K Equation

636

Achieving relevance in IS research via the DAGS framework

637

Achieving reliability goals for an EFV LRU through laboratory testing

638

Achieving reliability growth on real-time systems

639

Achieving reliability in simulation software

640

Achieving reliability in wireless sensor networks by differed reporting rate

641

Achieving Reliability Over Cluster-Based Wireless Sensor Networks Using Backup Cluster Heads

642

Achieving Reliability through Replication in a Wide-Area Network DHT Storage System

643

Achieving Reliability via Multi-Homing and Path Redundancy in Multi-hop Wireless Networks for Internet Access in Rural Areas

644

Achieving Reliable and Timely Task Execution in Mobile Embedded Applications

645

Achieving Reliable Broadcasting in Ad Hoc Wireless Networks with Directional Antennas

646

Achieving reliable delivery in supply chains: the control of uncertainties

647

Achieving Reliable High-Frequency Releases in Cloud Environments

648

Achieving Reliable Parallel Performance in a VoD Storage Server Using Randomization and Replication

649

Achieving Reliable Transmission Using Topology Control in MANET

650

Achieving Re-Loss-Free Video Coding

651

Achieving re-loss-free video coding in a class of H.264 like hybrid coding

652

Achieving Repeatability of Asynchronous Events in Wireless Sensor Networks with EnviroLog

653

Achieving replication consistency using cooperating mobile agents

654

Achieving reproducibility needed for manufacturing semiconductor tunnel devices

655

Achieving resilience for a class of serial production networks

656

Achieving resilience in critical infrastructures: A case study for a nuclear power plant cooling loop

657

Achieving resiliency by eliminating common mode failures in the smart grid

658

Achieving Resilient and Efficient Load Balancing in DHT-based P2P Systems

659

Achieving Resilient Routing through Redistributing Routing Protocols

660

Achieving resolution far beyond the diffraction limit with RAPID photolithography

661

Achieving Resource-Efficient Survivable Provisioning in Service Differentiated WDM Mesh Networks

662

Achieving return on critical knowledge

663

Achieving return on critical talent in technology-intensive organizations

664

Achieving return on critical talent: a case study of a software development organization

665

Achieving reusability through interoperability

666

Achieving Robotic Assembly by Sensing and Controlling Spatial Relationships

667

Achieving robust biometric based access control mechanism for cloud computing

668

Achieving robust fairness of SCTP extension for MPEG-4 streaming

669

Achieving robust interchangeability of test assets in ATE systems

670

Achieving Robust Self-Management for Large-Scale Distributed Applications

671

Achieving robust stability and performance by augmenting the number of system inputs

672

Achieving robust stability by sensing additional system outputs

673

Achieving robust stability by sensing additional system outputs

674

Achieving Robust, Secure and Cognitive Transmissions Using Multiple Antennas

675

Achieving robustness and capacity gains in covert timing channels

676

Achieving robustness by casting planning as adaptation of a reactive system

677

Achieving Robustness through Caching and Retransmissions in IEEE 802.15.4-based WSNs

678

Achieving round-robin access in controller area networks

679

Achieving safety with rail-mounted terminals

680

Achieving Satisfied Virtual Exchange Rates through Multiple-Stage Virtual Money Supply

681

Achieving savings through integration of control, protection and monitoring technology

682

Achieving scalability for job centric monitoring in a distributed infrastructure

683

Achieving scalability in a distributed electronic health record system

684

Achieving scalability in hierarchical location services

685

Achieving scalability in parallel tabled logic programs

686

Achieving scalability in real-time systems

687

Achieving scalability in the UPMT mobility management solution

688

Achieving scalable capacity in wireless networks with adaptive power control

689

Achieving scalable cluster system analysis and management with a gossip-based network service

690

Achieving Scalable Parallelization for the Hessenberg Factorization

691

Achieving scalable performance in large-scale IEEE 802.11 wireless networks

692

Achieving Scalable Privacy Preserving Data Aggregation for Wireless Sensor Networks

693

Achieving seamless mobility in IP-based radio access networks

694

Achieving seamless mobility through handover coordination in a network-based localized mobility managed heterogeneous environment

695

Achieving seamlessness in multi-projector based tiled display using camera feedback

696

Achieving Secondary Synchronization for downlink in the Long Term Evolution standard

697

Achieving secrecy capacity of MISO fading wiretap channels with artificial noise

698

Achieving secrecy capacity of the wiretap channel and broadcast channel with a confidential component

699

Achieving Secrecy of MISO Fading Wiretap Channels via Jamming and Precoding With Imperfect Channel State Information

700

Achieving secrecy without any instantaneous CSI: polar coding for fading wiretap channels

701

Achieving Secrecy Without Knowing the Number of Eavesdropper Antennas

702

Achieving secrecy: Capacity vs. resolvability

703

Achieving Secret Communication for Fast Rayleigh Fading Channels

704

Achieving secure and efficient data collaboration in cloud computing

705

Achieving secure and flexible M-services through tickets

706

Achieving secure and scalable data access control in information-centric networking

707

Achieving secure chaotic communication using EKF-based embedded-keys system

708

Achieving secure communication through pilot manipulation

709

Achieving Secure Communications over Wiretap Channels via Security Codes from Resilient Functions

710

Achieving secure friend discovery in social strength-aware PMSNs

711

Achieving Secure Fuzzy Commitment Scheme for Optical PUFs

712

Achieving Secure Role-Based Access Control on Encrypted Data in Cloud Storage

713

Achieving Secure Transmission with Equivalent Multiplicative Noise in MISO Wiretap Channels

714

Achieving Secure, Scalable, and Fine-grained Data Access Control in Cloud Computing

715

Achieving security assurance with assertion-based application construction

716

Achieving Security Despite Compromise Using Zero-knowledge

717

Achieving security in integrated circuit card applications reality or desire?

718

Achieving security in Integrated Circuit Card applications: reality or desire?

719

Achieving Self-Management via Utility Functions

720

Achieving self-organization by lateral inhibition

721

Achieving Semantic Interoperability between Physiology Models and Clinical Data

722

Achieving Semantic Interoperability for the IPY

723

Achieving semiconductor equipment reliability

724

Achieving serendipitous N-detect mark-offs in Multi-Capture-Clock scan patterns

725

Achieving service differentiation in IEEE 802.11e enhanced distributed channel access systems

726

Achieving service portability in ICEBERG

727

Achieving service portability using self-adaptive data paths

728

Achieving service rate objectives with decay usage scheduling

729

Achieving shannon capacity region as secrecy rate region in a multiple access wiretap channel

730

Achieving shared accountability for operational availability attainment

731

Achieving Shared Protection for Dynamic Multicast Sessions in Survivable Mesh WDM Networks

732

Achieving sharp deliveries in supply chains through variance pool allocation

733

Achieving Sharp Resonances in Metamaterials through Symmetry Breaking

734

Achieving sharp resonances in metamaterials via engaging "closed-modes"

735

Achieving Short-Cut Nitrification Using FA Inhibition and Real-Time Control Strategy in a Combined System Removing Nitrogen from Real Mature Landfill Leachate

736

Achieving side-channel protection with dynamic logic reconfiguration on modern FPGAs

737

Achieving Simplicity with the Three-Layer Product Model

738

Achieving simulation-based test program verification and fault simulation capabilities for mixed-signal systems

739

Achieving Single-User Performance in an FEC-Coded DS-CDMA System for Frequency Selective and Flat Fading Channels

740

Achieving sink node anonymity under energy constraints in tactical wireless sensor networks

741

Achieving sinusoidal rectifier input currents while minimising the kVA rating of controllable switches

742

Achieving SK capacity in the source model: When must all terminals talk?

743

Achieving SLC performance with MLC flash memory

744

Achieving smart grid interoperability through collaboration

745

Achieving socially optimal solution through payments in a dynamic game for the relay channel

746

Achieving Socio-technical Confidentiality Using Security Pattern in Smart Homes

747

Achieving software flexibility via intelligent workflow techniques

748

Achieving software quality through Cleanroom software engineering

749

Achieving software quality through requirements analysis

750

Achieving software quality with testing coverage measures

751

Achieving software reuse by conversion and reorganization of software systems

752

Achieving Source Location Privacy and Network Lifetime Maximization Through Tree-Based Diversionary Routing in Wireless Sensor Networks

753

Achieving space and time diversity by using lattice constellation based joint Alamouti coding

754

Achieving Space Diversity with Non-Coherent AF Relaying

755

Achieving Spatial Disjointness in Multipath Routing without Location Information

756

Achieving Spatial Diversity via PARC for Future Wireless Communication Systems

757

Achieving spectral and energy efficiencies in multi-cell networks

758

Achieving Spectral Efficient Cooperative Diversity with Network Interference Cancellation

759

Achieving spectrum efficiency through signal design for ultra wide band sensor networks

760

Achieving Speed in Legacy Systems

761

Achieving Speedup in Aggregate Risk Analysis Using Multiple GPUs

762

Achieving stability in networks of input-queued switches

763

Achieving stability in networks of input-queued switches

764

Achieving stability in networks of input-queued switches using a local online scheduling policy

765

Achieving stability of ECG biometric features through binaural brain entrainment

766

Achieving stable high-gain video amplification using the Miller-effect transformation

767

Achieving stable operation of ad hoc wireless networks with neighbor pre-selection and synchronous route updates

768

Achieving Stable Through-Silicon Via (TSV) Capacitance with Oxide Fixed Charge

769

Achieving Stable Tracking in Wave-Variable-Based Teleoperation

770

Achieving statistical gain in ATM networks with the same complexity as peak allocation strategy

771

Achieving strategic objectives through operational modeling

772

Achieving stretch goals [Book Reviews]

773

Achieving stretched capacity goal through integrated engineering and manufacturing excellence

774

Achieving stricter correctness requirements in multilevel secure databases

775

Achieving string stability in irrigation channels under distributed distant-downstream control

776

Achieving strong consistency in a distributed file system

777

Achieving strong scaling with NAMD on Blue Gene/L

778

Achieving strong security based on fountain code with coset pre-coding

779

Achieving strongly stable adaptive control system using intelligent auto-tuning

780

Achieving structural and composable modeling of complex systems

781

Achieving sub 100 DPPM defect levels on VDSM and nanometer ASICs

782

Achieving Sub-100-ns Switching of Programmable Josephson Arrays

783

Achieving Sub-50 Milliseconds Recovery Upon BGP Peering Link Failures

784

Achieving sub-adiabatic energy dissipation by varying VBS

785

Achieving subclutter visibility using estimation of clutter intensity and phase shift

786

Achieving sub-electron readout noise in Skipper CCDs

787

Achieving sub-Hz frequency resolution in high spectral purity and low power frequency synthesizers

788

Achieving Sub-Hz Frequency Symmetry in Micro-Glassblown Wineglass Resonators

789

Achieving Subnanometer Precision in a MEMS-Based Storage Device During Self-Servo Write Process

790

Achieving Subnanosecond Delays Using Feedback with the Current Switch

791

Achieving Subpixel Georeferencing Accuracy in the Canadian AVHRR Processing System

792

Achieving sub-pixel registration accuracy for radar imagery

793

Achieving Sub-Rayleigh resolution via thresholding

794

Achieving sub-second downtimes in internet-wide virtual machine live migrations in LISP networks

795

Achieving Sub-Second Downtimes in Large-Scale Virtual Machine Migrations with LISP

796

Achieving Success in Measurement and Reliability Modeling

797

Achieving Sum-Capacity of the MIMO BC with Large Transmit Array using One-Shot Scalable Feedback Protocol

798

Achieving super computer performance with a DSP array processor

799

Achieving supercomputer performance in a low pain environment

800

Achieving supercomputer performane for neural net simulation with an array of digital signal processors

801

Achieving superlinear speedup on a heterogeneous, distributed system

802

Achieving super-linearity speedup by implementing randomized problem of genetics algorithm

803

Achieving superresolution by subspace eigenanalys is in multidimensional spaces

804

Achieving supply chain agility through inter-organization knowledge sharing: A research-in-progress

805

Achieving survivability in business process execution language for Web services (BPEL) with exception-flows

806

Achieving sustainability in the Indian plastic industry: Issues and challenges

807

Achieving sustainability three dimensionally

808

Achieving sustainability through a combination of LCA and DES integrated in a simulation software for production processes

809

Achieving sustainable performance in natural monopolies - the role of strategic planning in the European air navigation services

810

Achieving symmetric capacity of a L-out-of-K Gaussian channel using single-user codes and successive decoding schemes

811

Achieving symmetric Pareto Nash equilibria using biased replicator dynamics

812

Achieving synchronization in spatiotemporal chaotic SSMA systems

813

Achieving synergy

814

Achieving synergy in collaborative education

815

Achieving Synergy in the Industry-Academia Relationship

816

Achieving System Safety by Resilience Engineering

817

Achieving Systems Safety by Resilience Engineering

818

Achieving Target Equilibria in Network Routing Games without Knowing the Latency Functions

819

Achieving Target MTTF by Duplicating Reliability-Critical Components in High Performance Computing Systems

820

Achieving target of Stockholm Convention on PCBs elimination: Asia-Pacific case

821

Achieving targeted granulocyte differentiation through the use of interpolation and optimization techniques

822

Achieving TBTC - 95 Tube Stock System Compatibility

823

Achieving TCP fairness through power management in CDMA wireless networks

824

Achieving TCP optimization over wireless links through joint FEC and power management: an analytical study

825

Achieving TCP Reno friendliness in FAST TCP over wide area networks

826

Achieving Team-Awareness in Scientific Grid Environments

827

Achieving temperature-insensitive λ in InP quantum dot lasers

828

Achieving Temporal Fairness in Multi-Rate 802.11 WLANs with Capture Effect

829

Achieving TeraCUPS on Longest Common Subsequence Problem Using GPGPUs

830

Achieving Test Program Set transportability through interface design

831

Achieving tester independence

832

Achieving tetra band performance in simple dielectric and in metamaterial filled patch antennas

833

Achieving the AWGN channel capacity with lattice Gaussian coding

834

Achieving the balance between automation and manual control

835

Achieving the Best Thermal Performance for GaN-on-Diamond

836

Achieving the capacity bounds of multicast in large-scale wireless networks

837

Achieving the capacity of any DMC using only polar codes

838

Achieving the Capacity of the $N$ -Relay Gaussian Diamond Network Within log $N$ Bits

839

Achieving the capacity of the N-relay Gaussian diamond network within logn bits

840

Achieving the Capacity Region Boundary of Fading CDMA Channels via Generalized Iterative Waterfilling

841

Achieving the customer´s desire, challenges facing designers of future mobile system audio visual services

842

Achieving the degrees of freedom for the two-cell MIMO interfering broadcast channels with limited feedback

843

Achieving the degrees of freedom of 2×2×2 interference network with arbitrary antenna configurations

844

Achieving the degrees of freedom of relay-aided interference broadcast channels

845

Achieving the Degrees of Freedom of Wireless Multi-User Relay Networks

846

Achieving the designed error capacity in decoding algebraic-geometric codes

847

Achieving the desired transformer leakage inductance necessary in DC-DC converters for energy storage applications

848

Achieving the DMD tradeoff of the MIMO-ARQ channel

849

Achieving the DoF limits of the SISO X channel with imperfect-quality CSIT

850

Achieving the Empirical Capacity Using Feedback: Memoryless Additive Models

851

Achieving the enhanced reliability of electronic system by application of EMI control measures

852

Achieving the entire Slepian-Wolf rate region using a single code with hidden Markov correlation

853

Achieving the ergodic capacity with lattice codes

854

Achieving the gains promised by Integer-Forcing equalization with binary codes

855

Achieving the Gaussian Rate–Distortion Function by Prediction

856

Achieving the Gaussian Rate-Distortion Function by Prediction

857

Achieving the Han-Kobayashi inner bound for the quantum interference channel

858

Achieving the Highest Levels of Wind Integration— A System Operator Perspective

859

Achieving the Holevo capacity of a pure state classical-quantum channel via unambiguous state discrimination

860

Achieving the hybrid middle ground in modern social entrepreneurship: A conceptual discussion with NYC-based clean technology enterprises as cases in point

861

Achieving the information rate region for two sources two sinks network coding: An extended work

862

Achieving the limits of IATOin TIL GTO thyristors

863

Achieving the lower bound of fading MIMO relay channels with covariance feedback at the transmitters

864

Achieving the Lowest Outage Probability for Multi-Phase Cooperative Wireless Networks

865

Achieving the Maximum P2P Streaming Rate Using a Small Number of Trees

866

Achieving the Maximum Sum Rate Using D.C. Programming in Cellular Networks

867

Achieving the minimal BPG convergence time

868

Achieving the multiple access capacity region via projective time sharing

869

Achieving the multiple-access capacity of the AWGN channel with iterative processing

870

Achieving the Near-Capacity of Two-Way Relay Channels With Modulation-Coded Physical-Layer Network Coding

871

Achieving the Optimal Delay-Power Tradeoff in Wireless Transmission with Arbitrarily Random Packet Arrival: A Cross-Layer Approach

872

Achieving the optimal diversity-multiplexing tradeoff of two-user full-duplex asymmetric MIMO cooperative multiple-access channels

873

Achieving the Optimal Diversity-Versus-Multiplexing Tradeoff for MIMO Flat Channels With QAM Space–Time Spreading and DFE Equalization

874

Achieving the optimal guaranteed error correction rate in a simple concatenated coding scheme with single-trial decoding

875

Achieving the Optimum Picture Quality via Computer Aided Design Methods

876

Achieving the Outage Capacity of the Diamond Relay Network to Within One Bit and Even Less

877

Achieving the perfect secrecy for the Gaussian wiretap channel with side information

878

Achieving the potential benefits of advanced manufacturing technology-a study of Swedish metal working companies

879

Achieving the potential benefits of advanced manufacturing technology-a study of Swedish metal working companies

880

Achieving the potential of public transport - the Citizen´s Network

881

Achieving the proportional fairness in MU-MIMO uplink cellular networks

882

Achieving the quality of verification for behavioral models with minimum effort

883

Achieving the Rate-Distortion Bound with Linear Codes

884

Achieving the rate-distortion bound with low-density generator matrix codes

885

Achieving the Real-time rectification of remote sensing data based on 4S integration in handset

886

Achieving the Reiger bound for burst errors using two-dimensional interleaving schemes

887

Achieving the Secrecy Capacity of Wiretap Channels Using Polar Codes

888

Achieving the secrecy capacity of wiretap channels using Polar codes

889

Achieving the Shannon limit with probabilistically shaped BICM

890

Achieving the Smart Grid through customer-driven microgrids supported by energy storage

891

Achieving the uncertainty limit of phase estimation in two-path interferometers

892

Achieving the upper bound time-bandwidth product for radio-frequency arbitrary waveform generation

893

Achieving the vision [network management]

894

Achieving the Welch bound with difference sets

895

Achieving the Welch bound with difference sets [optimal complex codebook design applications]

896

Achieving the workload balance of the clusters

897

Achieving Thermal-Resiliency for Multicore Hard-Real-Time Systems

898

Achieving three-dimensional automated micromanipulation at the scale of several micrometers with a nanotip gripper

899

Achieving throughput and functionality in a common architecture: the Datacycle experiment

900

Achieving throughput fairness in Wireless Mesh Networks based on IEEE 802.11

901

Achieving throughput fairness in wireless network based service differentiation

902

Achieving time-based fairness for VoIP applications in IEEE 802.11 WLAN using a cross-layer approach

903

Achieving timely message delivery quality-of-service in fixed and variable connectivity distributed routing networks

904

Achieving timing composability with measurement-based probabilistic timing analysis

905

Achieving traceability in PLC software

906

Achieving traceability of information in collaborative policy modelling processes

907

Achieving transaction scaleup on Unix

908

Achieving transparency and adaptivity in fuzzy control framework: an application to power transformers predictive overload system

909

Achieving transparency for teleoperator systems under position and rate control

910

Achieving transparent coexistence in a multi-hop secondary network through distributed computation

911

Achieving Transparent Integration of Information, Documents and Processes

912

Achieving true flexibility

913

Achieving true parallelism on a High Performance Heterogeneous Computer via a threaded programming model

914

Achieving True Video-on-Demand Service in Multi-Hop WiMax Mesh Networks

915

Achieving trust in cloud computing using secure data provenance

916

Achieving tunable bistability through photonic multilayers doped by unmagnetized plasma and coupled nonlinear defects

917

Achieving Ubiquitous Network Connectivity Using an RFID Tag-Based Routing Protocol

918

Achieving Ubiquity: The New Third Wave

919

Achieving ultra low k dielectric constant for nanoelectronics interconnect systems

920

Achieving ultra-high system availability in a battery-less -48VDC power plant

921

Achieving Ultralow Standby Power With an Efficient SCCMOS Bias Generator

922

Achieving unanimous opinions in signed social networks

923

Achieving undelayed initialization in monocular SLAM with generalized objects using velocity estimate-based classification

924

Achieving understandable results in a formal design verification

925

Achieving Undetectable Communication

926

Achieving Unified Protection for IP Routing

927

Achieving Uniform Carrier Distribution in MBE-Grown Compositionally Graded InGaN Multiple-Quantum-Well LEDs

928

Achieving uniform nMOS device power distribution for sub-micron ESD reliability

929

Achieving uniform noise in direct fan-beam CT reconstruction through bowtie filter design

930

Achieving uniform performance and maximizing throughput in the presence of heterogeneity

931

Achieving Uniformly Accurate and Up-to-date Models in Large Interconnected Power Systems

932

Achieving Unit Safety in the WebPuff Emergency Management Information System

933

Achieving universal usability by designing for change

934

Achieving up to zero communication delay in BSP-based graph processing via vertex categorization

935

Achieving Uplink/Downlink Fairness in WLANs via Multiple Backoff Timers

936

Achieving usable and privacy-assured similarity search over outsourced cloud data

937

Achieving User Cooperation Diversity in TDMA-Based Wireless Networks Using Cooperative Game Theory

938

Achieving user privacy in mobile networks

939

Achieving user-defined accuracy with damped least-squares inverse kinematics

940

Achieving User-Level Fairness in Open-Access Femtocell-Based Architecture

941

Achieving utility arbitrarily close to the optimal with limited energy

942

Achieving utility-delay-reliability tradeoff in stochastic network optimization with finite buffers

943

Achieving versatile manipulation tasks with unknown objects by supervised humanoid robots based on object templates

944

Achieving vertices of the capacity region of the synchronous Gaussian correlated-waveform multiple-access channel with decision-feedback receivers

945

Achieving von Neumann´s dream: artificial life on silicon

946

Achieving warpage-free packaging: A capped-die flip chip package design

947

Achieving weighted fairness between uplink and downlink in IEEE 802.11 DCF-based WLANs

948

Achieving weighted fairness for wireless multimedia services

949

Achieving weighted-fairnessin message rate-based congestion control for DSRC systems

950

Achieving wide frequency range in an analog FPGA

951

Achieving Wide-Band Common-Mode Rejection in Differential Amplifiers

952

Achieving wide-band common-mode rejection in differential amplifiers

953

Achieving wide-band high birefringence, large nonlinearity and low dispersion using variable-spiral soft glass photonic crystal fibers

954

Achieving Wideband sub-1dB Noise Figure and High Gain with MOSFETs if Input Power Matching is not Required

955

Achieving Wireline Random Access Throughput in Wireless Networking Via User Cooperation

956

Achieving wireline random access throughput in wireless networking via user cooperation

957

Achieving wire-speed protocol processing in a multi-Gbps network using BSD UNIX and an OC-48c network interface card

958

Achieving world class supply chains

959

Achieving World Class Supply Chains

960

Achieving world-class reliability in general aviation´s supply chain

961

Achieving worst case robustness in energy efficient multiuser multicell cooperation systems

962

Achieving Zero-Defects for Automotive Applications

963

Achieving ZVS in a two quadrant converter using a simplified auxiliary circuit with novel control

964

Achieving ZVS in inductor-less half-bridge piezoelectric transformer based resonant converters

965

ACHIKO-I retinal fundus image database and its evaluation on cup-to-disc ratio measurement

966

ACHIKO-K: Database of fundus images from glaucoma patients

967

Achilles and the tortoise: Power consumption in IEEE 802.11n and IEEE 802.11g networks

968

Achilles: An autonomous lightweight ankle exoskeleton to provide push-off power

969

Achilles´ heel [Electrical Safety]

970

Achiral and chiral sum frequency vibrational spectroscopy of collagen fibrils

971

AChord: Topology-Aware Chord in Anycast-Enabled Networks

972

Achromatic and Single-beam Pulse Characterization Technique for Visible-UV Pulses based on direct UV Pulse Shaping and Cross-polarized Wave Generation

973

Achromatic and Single-beam Pulse Characterization Technique for Visible-UV Pulses based on direct UV Pulse Shaping and Cross-polarized Wave Generation

974

Achromatic and super-achromatic zero-order waveplates

975

Achromatic characteristics in 3-D Sagnac interferometer based on geometric phase shift

976

Achromatic circular polarization generation for ultra-intense lasers

977

Achromatic double-pass configuration in a single longitudinal mode doubly resonant OPO

978

Achromatic doublets for Gaussian beams

979

Achromatic holographic optical elements for coupling laser diode to single mode fiber

980

Achromatic Induction: A Variational Interpretation of Rudd-Zemach´s Edge Integration Model

981

Achromatic Liquid Crystal Phase Elements

982

Achromatic metasurfaces by dispersive phase compensation

983

Achromatic metasurfaces enable multi-wavelength flat optical components: Demonstration of a dispersion-less beam deflector

984

Achromatic micropolarizing filters for visible circular polarization bio-imaging

985

Achromatic mode-index/diffractive waveguide lens

986

Achromatic optical interconnects using holographic optical elements

987

Achromatic phase matching for second harmonic generation of femtosecond pulses

988

Achromatic phase matching for tunable second harmonic generation

989

Achromatic phase matching for tunable second harmonic generation

990

Achromatic pi-phase shift for nano-sensing interferometry: nulling of polychromatic on-axial light, off-axial light detection

991

Achromatic polarizing elements for pulsed THz waves

992

Achromatic supertwisted nematic LCD using birefringent film

993

Achromatic synthesizer of femtosecond vector beams for materials processing

994

Achromatic THz wave plate based on the structured parallel metal plates

995

Achromatic THz wave plate composed of stacked parallel metal plates with a pillar array

996

Achromatic transient-grating for FROG characterization

997

Achromatic waveguide couplers

998

Achromatic Waveplates for Liquid Crystal Displays

999

Achromatically coupled wavelength conversion module with SILICAGRIN® lens

1000

Achromatically injection-seeded terahertz-wave parametric generator

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