| Title | Author | Pages |
|---|
| Challenges of Globally Implementing ADS-B (Automatic Dependent Surveillance Broadcast) | M.U. Ripple | 1 - 15 |
| Defining the Gold Standard for Navigation | L. Scott | 16 - 37 |
| GNSS Reflected Signal Acquisition with Galileo Signals | T.R. Peres, R. Castro, J.S. Silva, N. Catarino, P.F. Silva | 38 - 46 |
| Enhancing Gyrocompassing Performance Using Low-Cost Optical Sensors | M.J. Veth | 47 - 55 |
| Remote Sensing of Soil Based on a Compact and Fully Software GNSS-R Receiver | Y. Pei, R. Notarpietro, S. De Mattia, P. Savi, F. Dovis, and M. Pini | 56 - 61 |
| Snow Height and Surface Temperature Variations from Ground GPS Receivers in Greenland | N. Najibi, S. Jin | 62 - 68 |
| GPS Seismo-ionospheric Disturbances and Behaviors Following the 2011 Tohoku and 2008 Venchuan Earthquakes | S. Jin, R. Jin | 69 - 76 |
| On the Correlation Between Ionosphere Scintillation and Geomagnetic Field Activity | Y. Jiao, Y. Morton, S. Taylor, W. Pelgrum | 77 - 83 |
| Distributed Array of GPS Receivers for 3D Wind Profile Determination in Wind Farms | D. Chen, L. Heng, D. Jia, G.X. Gao | 84 - 91 |
| Using Both GPS L1 C/A and L1C: Strategies to Improve Acquisition Sensitivity | K.C. Seals, W.R. Michalson, P.F. Swaszek, R.J. Hartnett | 92 - 106 |
| Analysis and Verification to the Effects of NH Code for Beidou Signal Acquisition and Tracking | K. Yan, H. Zhang, T. Zhang, L. Xu, X. Niu | 107 - 113 |
| Integrating Compression and Multi-Rate Algorithms for Robust Acquisition: Analysis using GPS L2C Signal | S.R. Babu, A. Kumar, V. Gambhir | 114 - 120 |
| Improving GNSS Bit Synchronization and Decoding Using Vector Tracking | T. Ren, M. Petovello, C. Basnayake | 121 - 134 |
| Collaborative GNSS Signal Processing | A. Soloviev, J. Dickman | 135 - 143 |
| A Novel Approach for Multipath and Interference Mitigation with Dual Tracking Antenna Receiver | P. Ramaioli, M. Puccitelli, S. Fantinato, L. Siniscalco, G. Guarino, R. Guidi, V. Martorelli, D. Jiménez Baños, J.A. Ávila Rodríguez | 144 - 153 |
| GNSS Multipath Mitigation Using High-Frequency Antenna Motion | T. Ertan, M.L. Psiaki, B.W. O'Hanlon, R.A. Merluzzi, S.P. Powell | 154 - 175 |
| Quad Constellation Receiver - GPS, GLONASS, Galileo, BeiDou | P.G. Mattos, F. Pisoni | 176 - 181 |
| Matched Quantization and Band Separation in a Direct Sampling Dual Band GNSS Receiver for Civil Aviation | A. Blais, C. Macabiau, O. Julien | 182 - 196 |
| GNSS Receiver Technology Trends | J-H. Won, S-J. Ko, I. Krämer | 197 - 204 |
| SBAS Flight Trials in European Eastern Countries where EGNOS is Still not Available | J. Cegarra, J. Escartín, J. Ostolaza, M. Krywanis-Brzostowska, H. de With | 205 - 222 |
| Assessment of Alternative Positioning Solution Architectures for Dual Frequency Multi-Constellation GNSS/SBAS | G.A. McGraw, B.A. Schnaufer, P.Y. Hwang, M.J. Armatys | 223 - 232 |
| Can Current DME Support PBN Operations with Integrity? | G. Berz, V. Vitan, I. Skyrda | 233 - 250 |
| The Future Role of a “Standalone” Distance Measuring Equipment (DME) in the United States National Airspace System (NAS) | E. Etienne, V. Hinton, S. Frodge, R. Achanta | 251 - 262 |
| A Testbed for Studying Automatic Dependent Surveillance Broadcast (ADS-B) Based Range and Positioning Performance to Support Alternative Position Navigation and Timing (APNT) | Y-H. Chen, S. Lo, D.M. Akos, G. Wong, P. Enge | 263 - 273 |
| Wide Area Multilateration Evaluation Test Bed using USRP Based ADS-B Receiver | S-S. Jan, S-L. Jheng, A-L. Tao | 274 - 281 |
| Real-Time Data Link Implementation Aspects of a Measurement-Based ADS-B System for Conflict Detection and Resolution | P. Duan, M. Uijt de Haag, J.L. Farrell | 282 - 291 |
| Precise GNSS Product-Aided Flight Inspection System | Y. Wang, X. Shi, P. Wang | 292 - 300 |
| The EGNOS NOTAM Proposals Service: Towards Full ICAO Compliance | J. Vázquez, M.A. Sánchez, J. Cegarra, P.D. Tejera, P. Gómez Martínez | 301 - 315 |
| GNSS Multipath Failures Modes Analysis for Airport Surface Operations | L. Montloin, L. Azoulai, A. Martineau, C. Milner, C. Macabiau | 316 - 332 |
| Curved Approach Segments for Noise Abatement | M. Troller, R. Germann, A. Frik, M. Bertschi, P. Truffer, M. Scaramuzza | 333 - 339 |
| An Efficient Acquisition Method for the CSK Signal of QZSS LEX | K. Nakakuki, R. Hirokawa | 340 - 347 |
| BeiDou Receiver Autonomous Integrity Monitoring (RAIM) Performance Analysis | X-L. Su, X. Zhan, F. Qin, X. Zhang, Y. Zhang | 348 - 360 |
| Design, Implementation, and Performance Analysis of ACE-BOC Modulation | Z. Yao, M. Lu | 361 - 368 |
| The Comparison on the Positioning Performance Between BeiDou and GPS | Y. Xu, S. Ji, W. Chen, D. Weng, Y.Xu, W. Chen, D. Weng, S. Ji | 369 - 382 |
| Four-constellation Reliability in Challenging GNSS Signal Environments and the Estimation of Inter-system Time-offsets. | R. Winit, K. O’Keefe | 383 - 397 |
| BeiDou Consumer Receiver Chips at Last | P.G. Mattos, F. Pisoni | 398 - 402 |
| Approaches to Obtaining Beidou Hazardous Pseudorange Bias with the Ordered Weighted Aggregation Operators | S. Qian, Y. Yuan | 403 - 407 |
| Analysis and Testing of Optimal Navigation Message Rate for IMES | S. Pullen, D. Manandhar, H. Torimoto | 408 - 415 |
| WLAN TOA Ranging with GNSS Hybrid System for Indoor Navigation | B. Li, K. O’Keefe | 416 - 425 |
| Positioning in GPS Challenged Locations - The NextNav Terrestrial Positioning Constellation | S. Meiyappan, A. Raghupathy, G. Pattabiraman | 426 - 431 |
| Seamless Location Based Services (LBS) in Train Stations Using GNSS and IMES | A. Shikimura, K. Mutoh, N. Kohtake, M. Utsumi, T. Furutou, H. Tomita, M. Ishii | 432 - 438 |
| The GEOCOM Mobile Positioning System | D. Weigand, E. Soto, M. Volpe, J. Koss | 439 - 447 |
| Use of Trunk Roll Constraint to Improve Heading Estimation in Pedestrian Dead Reckoning Navigation Systems | T. Jakel, D. Gebre-Egziabher | 448 - 460 |
| Visual Positioning with Image Database and Range Camera | W-W. Kao, I-J. Chu | 461 - 466 |
| Using Multiple Sensor Triads for Enhancing the Navigation Solution of Portable and Wearable Devices | M. Omr, J. Georgy, A. Noureldin | 467 - 472 |
| LTE OTDOA Positioning Performance Under Interference Conditions | T-Y. Chiou, Y-W. Ting, Y-C. Lin | 473 - 478 |
| Optimization of Tracking Loops for Signals of Opportunity in Mobile Fading Environments | C. Yang, T. Nguyen | 479 - 487 |
| Novel Environmental Features for Robust Multisensor Navigation | D. Walter, P.D. Groves, B. Mason, J. Harrison, J. Woodward, P. Wright | 488 - 504 |
| Vision-based Real-time Estimation of Smartphone Heading and Misalignment | B. Kazemipur, Z. Syed, J. Georgy, N. El-Sheimy | 505 - 510 |
| Stereo-Vision Aided GNSS for Automotive Navigation in Challenging Environments | B.M. Aumayer, M.G. Petovello, G. Lachapelle | 511 - 520 |
| Instantaneous Ambiguity Resolution of MOSAIC/DME: A Single Station Based 3D Positioning System for Alternative PNT | O-J. Kim, C. Kim, J. Song, Y. Kim, C. Kee | 521 - 528 |
| Nav-by-Search: Exploiting Geo-referenced Image Databases for Absolute Position Updates | L. Hamilton, P. Lommel, T. Galvin, J. Jacob, P. DeBitetto, M. Mitchell | 529 - 536 |
| GPS Program Updates | B. Cooley | 537 - 554 |
| Galileo Programme Status Update | E. Chatre | 555 - 579 |
| Quasi-Zenith Satellite System Current Status | Y. Murai | 580 - 597 |
| Demonstrating the Benefits of Resilient PNT | A. Grant, P. Williams, C. Hargreaves, M. Bransby | 598 - 604 |
| SeaSlug: A Low-cost, Long-duration Mobile Marine Sensor Platform for Flexible Data-collection Deployments | B. Mairs, R. Curry, G. Elkaim | 605 - 611 |
| Networked GPS Approach to Tracking Marine Animal Schools | L. Heng, G.X. Gao | 612 - 619 |
| At-sea Data Collection in the Salmon Fisheries Using GPS-enabled Android | J.W. Lavrakas, W. Black | 620 - 630 |
| A PVT Estimation for the ERTMS Train Control Systems in Presence of Multiple Tracks | A. Neri, A.M. Vegni, F. Rispoli | 631 - 644 |
| Cooperative GNSS Signal Processing Algorithms for Intelligent Transport Systems | R. Bauernfeind, D. Dötterböck, E. Gkougkas, B. Eissfeller | 645 - 655 |
| Experimental Evaluation for Road User Charging of GPS/GLONASS/MEMS OBU | M. Azaola, C. Moriana, P. Navarro, D. Valdés, L. Bonardi, M. Toledo, J. Cosmen | 656 - 666 |
| Automated Estimation and Mitigation of Wireless Time-Delays in Smartphones for a Robust Integrated Navigation Solution | Y. Zhuang, Z. Syed, C. Goodall, U. Iqbal, N. El-Sheimy | 667 - 676 |
| Pushing Standardisation of GNSS-based Location Systems to Support Terrestrial Applications Development. | J. Giraud, M-L. Mathieu, J.P. Boyero Garrido, I. Fernandez Hernandez | 677 - 688 |
| The Performance Analysis of a Portable Mobile Mapping System with Different GNSS Processing Strategies | C-H. Chu, K-W. Chiang, C-A. Lin | 689 - 703 |
| An On-Line Visual Driver Aid for Safe and Precise Convoy Following in Visibility-Impaired Conditions | R. Cofield, S. Martin, D. Bevly | 704 - 710 |
| Distance Measuring Equipment Accuracy Performance Today and for Future Alternative Position Navigation and Timing (APNT) | S. Lo, Y.H. Chen, P. Enge, B. Peterson, R. Erikson, R. Lilley | 711 - 721 |
| Impact of Ground Multipath on Terrestrial Radio Navigation Performance | K. Li, W. Pelgrum, A. Naab-Levy | 722 - 736 |
| Chameleon v2:Improved Imaging-inertial Indoor Navigation | J. Rydell, E. Emilsson | 737 - 745 |
| GPS Denied Navigation Using Meta-Image Objects From Georeferenced Maps | B.A. Schnaufer, K. Celik, J. Nadke, P. Hwang, A. Somani | 746 - 755 |
| Experimental Study of Two-channel UWB-OFDM Radar for Indoor Navigation with INS Integration | K. Kauffman, J. Raquet, Y. Morton, D. Garmatyuk | 756 - 761 |
| Integrating Vision Derived Bearing Measurements with Differential GPS and UWB Ranges for Vehicle-to-vehicle Relative Navigation. | E.A. Abolfathi, K. O'Keefe | 762 - 771 |
| Positioning Results for LDACS1 Based Navigation with Measurement Data | N, Schneckenburger, B. Elwischger, D. Shutin, M. Suess, B. Belabbas, M-S. Circiu | 772 - 781 |
| Integration of Vision and Navigation | J.E Kain, J. Summerville, J. Summerville | 782 - 791 |
| Research on the Epoch Folding Phase Estimation X-ray Pulsars Relative Navigation Based Spatial States Determination of Formation Flying Spacecrafts | C-J. Guo, Z. Tian, X-C. Zhang, Z. Chen | 792 - 804 |
| SBAS L1/L5 ICDS and Alternatives: Analysis of Multi-GNSS Service Performance Assessment | M. Cueto, A. Cezón, J. Caro, C. Rodríguez, D. Brocard, J.C. Denis, E. Chatre | 805 - 813 |
| Implementation of the L5 SBAS MOPS | T. Walter, J. Blanch, P. Enge | 814 - 824 |
| Qualifying an L5 SBAS MOPS Ephemeris Message to Support Multiple Orbit Classes | T. Reid, T. Walter, P. Enge | 825 - 843 |
| SBAS Interoperability Demonstration | F. Lorge | 844 - 853 |
| Receiver Inter System Bias Impact on SBAS Dual Constellation Positioning and Integrity | C. Boulanger, N. Suard, F. Mercier, C. Rodriguez, D. Lapeyre | 854 - 864 |
| A New Method to Make Ionospheric Delay Corrections in SBAS for GPS and Compass Dual Constellations | S. Wang, B. Zhu | 865 - 874 |
| SBAS in Equatorial Regions | A. Cezón, M. Cueto, E. Sardón, D. Rizzo | 875 - 889 |
| The Arctic Testbed – Providing GNSS Services in the Arctic Region | P.E. Kvam, M. Jeannot | 890 - 901 |
| WAAS Availability Over the Solar Maximum | T. Schempp, B. Stimmler, Raytheon | 902 - 911 |
| Dual Frequency SBAS Trial and Preliminary Results for East-Asia Region | T. Sakai, K. Hoshinoo, T. Walter | 912 - 920 |
| Enhanced SBAS with Satellite Dynamic Mask and Precise Orbit and Clock Corrections | J. Caro, J. Barrios, V.M. Esteban, V. Izquierdo, A. Madrazo, M. Odriozola, J. Ostolaza, F.J. Simón | 921 - 935 |
| GPS III Signal Integrity Improvements | S. Shaw, A.J. Katronick | 936 - 945 |
| Economic Benefits of Using Industry-Sector Monitoring Systems Based on GNSS | A. Dorofeeva | 946 - 950 |
| GPS Inter-Signal Corrections (ISCs) Study | W. Feess, J. Cox, E. Howard, K. Kovach | 951 - 958 |
| GPS SPS Performance in 2012 – How Good Was It? | B. Renfro, J. Kammerman, M. Bratton, D. Munton | 959 - 971 |
| GLONASS Navigation Message Format for Flexible Row Structure | A.A. Povalyaev | 972 - 974 |
| Next Generation Indoor Positioning System Based on WiFi Time of Flight | L. Banin, U. Schtzberg, Y. Amizur | 975 - 982 |
| Accurate Indoor Positioning Using Multipath Components | C. Gentner, T. Jost, A. Dammann | 983 - 990 |
| User Aided Self-growing Approach on Radio Map Construction for WLAN Based Localization | D. Zou, W. Meng, S. Han, Z. Gong, B. Yu | 991 - 997 |
| High-Accuracy Indoor Navigation Utilizing RF Wireless Location Signatures and High-Fidelity Predictive Models | J.J. Zhu, D. Qiu, J. Blaha, D.S. De Lorenzo, T. Bhattacharya | 998 - 1005 |
| SmartSLAM - An Efficient Smartphone Indoor Positioning System Exploiting Machine Learning and Opportunistic Sensing | R.M. Faragher, R.K. Harle | 1006 - 1019 |
| Imaging Sensors for Optical Wireless Location Technology | A. Arafa, X. Jin, D. Guerrero, R. Klukas, J. F. Holzman | 1020 - 1023 |
| Cooperative Exploitation for Indoor Geolocation | A. Soloviev, C. Yang | 1024 - 1032 |
| Indoor Localization Based on Magnetic Anomalies and Pedestrian Dead Reckoning | J. Ma, J. Qian, P. Li, R. Ying, P. Liu | 1033 - 1038 |
| Context Detection, Categorization and Connectivity for Advanced Adaptive Integrated Navigation | P.D. Groves, H. Martin, K. Voutsis, D. Walter, L. Wang | 1039 - 1056 |
| Investigating the use of MEMS Based Wrist-worn IMU for Pedestrian Navigation Application | J. Qian, J. Ma, L. Xu, R. Ying, W. Yu, P. Liu | 1057 - 1064 |
| Low Power Tracking of GNSS Signal by IMU Aided Intermittent Tracking Algorithm | L. Xu, M. Wang, R. Ying, P. Liu, W. Yu | 1065 - 1070 |
| Development of High-precision Navigation Algorithm by Fusion of GPS and MEMS Sensors | Y. Kosaka, T. Tsuchiya, M. Naruoka, H. Tomita, H. Kurihara, K. Ishida, T. Ichikawa | 1071 - 1083 |
| MEMS Sensor Assisted Terrestrial Vehicular Navigation on Portable Devices | S. Bharadwaj, S. Murali, J. Balakrishnan, A. Deshpande, Y. Shekar, G. Dutta | 1084 - 1091 |
| An Algorithm for Automatic Inertial Sensors Calibration | S. Guerrier, R. Molinari, J. Skaloud, M-P. Victoria-Feser | 1092 - 1097 |
| A Technique for Fast Magnetometer Calibration with Little Space Coverage | A. Wahdan, J. Georgy, W.F. Abdelfatah, A. Noureldin | 1098 - 1104 |
| U.S. Position Regarding GPS/GNSS Civil Signal Intellectual Property | D.A. Turner | 1105 - 1119 |
| Towards an IP Policy for the EU GNSS Programme Galileo | G. Caratti | 1120 - 1142 |
| IP Landscape, Risks and Policies Around GNSS | Pascal Asselot | 1143 - 1154 |
| Real Time Precise GPS Constellation and Clocks Estimation by Means of a Kalman Filter | D. Laurichesse, L. Cerri, J.P. Berthias, F. Mercier | 1155 - 1163 |
| Integrity Monitoring in Precise Point Positioning | G. Seepersad, S. Bisnath | 1164 - 1175 |
| Precise Point Positioning with Fast Ambiguity Resolution - Prerequisites, Algorithms and Performance | L. Mervart, C. Rocken, T. Iwabuchi, Z. Lukes, M. Kanzaki | 1176 - 1185 |
| Concepts for Undifferenced GLONASS Ambiguity Resolution | S. Banville, P. Collins, F. Lahaye | 1186 - 1197 |
| Interchangeable Integration of GPS and Galileo by Using a Common System Clock in PPP | T. Melgard, J. Tegedor, K. de Jong, D. Lapucha, G. Lachapelle | 1198 - 1206 |
| Time Correlation in GNSS Precise Point Positioning | M.E.D. Goode, S.J. Edwards, P. Moore, K. de Jong | 1207 - 1214 |
| Towards the Inclusion of Galileo and BeiDou/Compass Satellites in Trimble CenterPoint RTX | H. Landau, M. Brandl, X. Chen, R. Drescher, M. Glocker, A. Nardo, M. Nitschke, D. Salazar, U. Weinbach, F. Zhang | 1215 - 1223 |
| Improving Ambiguity Validation and Integrity Monitoring of Precise Point Positioning (PPP) | A. Jokinen, S. Feng, W. Schuster, W. Ochieng, L. Yang, T. Moore, C. Hill | 1224 - 1233 |
| An Evaluation of Solar Radiation Pressure Models for QZS-1 Precise Orbit Determination | S. Ikari, T. Ebinuma, R. Funase, S. Nakasuka | 1234 - 1241 |
| Performance of Fault Detection and Exclusion for GNSS/Locata Integrated Navigation | L. Yang | 1242 - 1251 |
| Seamless Indoor Outdoor Positioning Using Bayesian Sensor Data Fusion on Mobile and Embedded Devices | G. Hejc, J. Seitz, J. Gutierrez Boronat, T. Vaupel | 1252 - 1259 |
| Error Correction Method with Precise Map Data for GPS/DR Based on Vision/Vehicle Speed Sensor | B-H. Lee, G-I. Jee, S-H. Im, M-B. Heo | 1260 - 1266 |
| Probabilistic Integrating of 3D Building Models and GNSS for Reliable Vehicle Localization in Urban Areas—the GAIN Approach | S. Bauer, M. Obst, G. Wanielik | 1267 - 1276 |
| Ultra-Wideband Aided Carrier Phase Ambiguity Resolution in Real-Time Kinematic GPS Relative Positioning | E. Broshears, S. Martin, D. Bevly | 1277 - 1284 |
| Tightly Coupled Multi-GNSS Receiver Fusion for Robust Position Estimation in Urban Environments | R. Streiter, S. Bauer, G. Wanielik | 1285 - 1289 |
| Real-time Cycle-slip Detection and Correction for Land Vehicle Navigation Using Inertial Aiding | M.O. Karaim, T.B. Karamat, A. Noureldin, M. Tamazin, M.M. Atia | 1290 - 1298 |
| Reliability of GNSS Measurements via Pseudorange Prediction Using an Odometer for Robust Land-Vehicle Navigation | K.A. Bin Ahmad, M. Sahmoudi, C. Macabiau | 1299 - 1307 |
| Comparison of Tightly Coupled and Deeply Coupled GPS/INS Integration for Automotive Applications Using a Software Defined GNSS Receiver Framework | M. Langer, G.F. Trommer | 1308 - 1316 |
| Wi-Fi Indoor Localisation Based on Collaborative Ranging Between Mobile Users | H Jing, J. Pinchin, C. Hill, T. Moore | 1317 - 1324 |
| GPS-Aided Lane Marking Detection and Vehicle Positioning | E. Broshears | 1325 - 1328 |
| Tightening DGNSS Protection Levels Using Direct Position-Domain Bounding | O. Osechas, J. Rife | 1329 - 1340 |
| An Empirical Model for Computing GPS SPS Pseudorange Natural Biases Based on High Fidelity Measurements from a Software Receiver | S. Gunawardena, F. van Graas | 1341 - 1358 |
| Simulation of Swept FM Interference and its Impact on an Aviation Receiver | M. Brenner | 1359 - 1370 |
| Performance Analysis and Experimental Validation of Broadband Interference Mitigation Using an Atomic Clock-Aided GPS Receiver | F-C. Chan, M. Joerger, S. Khanafseh, B. Pervan, O. Jakubov | 1371 - 1379 |
| GPS Multipath Assessment in Real Airport Conditions to Support Category III Operations | L. Azoulai, A. Chen, Y. Cruz Cavalcanti | 1380 - 1394 |
| GAST C and GAST D Performance Analysis Based on BeiDou Navigation Satellite System | Z. Wang, J. Zhang, Y. Zhu, R. Xue | 1395 - 1402 |
| Potential for the use of GBAS at Close-by Airports | M. Felux, P. Remi, S. Circiu | 1403 - 1410 |
| Design of Ephemeris Fault Detection Algorithm Using Baseline Length of Integrated GBAS | J. Ahn, D. Won, S. Sung, Y.J. Lee, J. Kim, H.S. Jun | 1411 - 1416 |
| GBAS Enhancement by Using the Ionospheric Gradient Correction | D. Weng, W. Chen, S. Ji, Y. Xu | 1417 - 1427 |
| Detecting Ionospheric Threat for GBAS Using a Spatial-temporal Method | P. Zhao, Jun Zhang, R. Xue | 1428 - 1434 |
| The Inadequacy of the Spectral Separation Coefficient and Aggregate Gain Factor for Quantifying the Effects of GPS C/A Code Self Interference | A.J. Van Dierendonck, R.J. Erlandson, K. Shallberg, S. Ericson | 1435 - 1444 |
| On the Design of a GNSS Acquisition Aiding Signal | M. Paonni, M. Bavaro | 1445 - 1456 |
| Galileo Consumer Receiver: Live Satellites at Last | P.G. Mattos, F. Pisoni | 1457 - 1460 |
| Analysis of the use of CSK for Future GNSS Signals | A. Garcia-Pena, D. Salos, O. Julien, L. Ries, T. Grelier | 1461 - 1479 |
| First GNSS Positioning using IOV Galileo Satellites | B. Bonhoure, C. Boulanger, T. Chapuis, F.X. Marmet, N. Suard | 1480 - 1491 |
| Turning a Television Into a GNSS Receiver | C. Fernández-Prades, J. Arribas, P. Closas | 1492 - 1507 |
| Open Source Software Defined Radio Platform for GNSS Recording, Simulation | A. Brown, J. Redd, M. Dix | 1508 - 1516 |
| Fast Prototyping of Receiver Accelerators Using NI Labview FPGA | A. Soghoyan, D. Kinjarapu, D. Akopian | 1517 - 1526 |
| Feasibility Study on the Use of Xilinx COTS Radiation Hardened FPGA to Implement GNSS Signal Acquisition for Space Applications | S. Ramakrishnan, P. Enge | 1527 - 1538 |
| A Software Defined Radio Solution for Hybrid GPS/Signals of Opportunity Navigation | M.B. Mathews, P.F. MacDoran | 1539 - 1548 |
| STARx -- A GPU Based Multi-System Full-Band Real-Time GNSS Software Receiver | B. Huang, Z. Yao, F. Guo, S. Deng, X. Cui, M. Lu | 1549 - 1559 |
| A Universal GNSS Software Receiver MATLAB® Toolbox for Education and Research | S. Gunawardena | 1560 - 1576 |
| A Multiple Lock Detector for the Signal Abnormality Detection in the GPS Receiver | M.H. Jin, Y.S. Choi, H.H. Choi, S.J. Lee, C. Park | 1577 - 1582 |
| Correcting GNSS Multipath Errors Using a 3D Surface Model and Particle Filter | T. Suzuki, N. Kubo | 1583 - 1595 |
| Multipath Mitigation Methods Based on Diversity Algorithms | S. Rougerie, G. Carrie, J. Israel, L. Ries, M. Monnerat, P. Thevenon | 1596 - 1605 |
| Urban Positioning on a Smartphone: Real-time Shadow Matching Using GNSS and 3D City Models | L. Wang, P.D. Groves, M.K. Ziebart | 1606 - 1619 |
| Pulsed-RF Ultra Wideband Transceivers for Aiding in Distributed Navigation Networks | B. Dewberry | 1620 - 1625 |
| Heading Misalignment Estimation Between Portable Devices and Pedestrians | A. Ali, H-W. Chang, J. Georgy, Z. Syed, C. Goodall | 1626 - 1633 |
| TAXISAT: A Driverless GNSS Based Taxi Application Capable of Operating Cost Effectively | O. Otaegui, O. Desenfans, V. Barreau, L. Plault, A. Lago | 1634 - 1641 |
| Navigation Performance Using Long-Term Ephemeris Extension for Mobile Device | Y. Li, Y. Gao | 1642 - 1651 |
| Varying Step Length Estimation Using Nonlinear System Identification | A. Wahdan, M. Omr, J. Georgy, A. Noureldin | 1652 - 1658 |
| Methods for Improving PPP Accuracy in Urban Canyons | Y. Kubo, Y. Suzuki, M. Ozaki, M. Ohashi, S. Sugimoto | 1659 - 1664 |
| Omni-directional Antenna Model Based Wi-Fi Positioning Method for Urban Area | J-H. Song, G-I. Jee | 1665 - 1669 |
| Simulating Non-LOS GNSS Reflected Signals in Urban and Dense Urban Environments | J. Jakobsen, A.B.O. Jensen | 1670 - 1674 |
| GNSS Road Applications | Y. Capelle | 1675 - 1687 |
| Location for Mobile Computing | G. Turetzky | 1688 - 1701 |
| New Developments in Mobile Devices Chips and Receivers for GNSS | P.G. Mattos | 1702 - 1716 |
| GNSS and ITS: The Need for Performance Standards | F. Peyret | 1717 - 1730 |
| Galileo “Early Services” Promoting New Applications and Products | M. Lisi | 1731 - 1747 |
| Uninhabited Aerial Vehicle as Avionics Prototyping Platforms | D. Gebre-Egziabher | 1748 - 1764 |
| Symmetricom Generates, Distributes and Applies Precise Time | P. Bourekas | 1765 - 1766 |
| Simulators | S. Hickling | 1767 - 1777 |
| Train Control Systems with GNSS Capability: Market Trends and Challenges | F. Rispoli | 1778 - 1785 |
| Modernized Military GPS User Equipment: Our Way Forward | T. Sharpe | 1786 - 1794 |
| Determination of GPS Tropospheric Delays by Utilizing Ground-based GPS Network Measurements and its Applications for Weather Forecasts and Precise Point Positioning | D. Kim, K-D. Park | 1795 - 1801 |
| Performance Analysis of Pseudolite Tropospheric Delay Models Using Meteorological Radiosonde with Flight Test Results | H. So, K. Lee, Y. Park, J. Park, K. Song | 1802 - 1809 |
| Scintillation Characterization for WAAS During Solar Maximum | E. Altshuler, K. Shallberg, B.J. Potter | 1810 - 1822 |
| A New Triple-frequency, Ionosphere-free Technique for Ambiguity Resolution of Long-range Baseline | Y. Xu, S. Ji, W. Chen, D. Weng, Y. Xu, W. Chen, D. Weng, S. Ji | 1823 - 1832 |
| Quantitative Spectrum Analysis on High Latitude and Equatorial Ionosphere Scintillation | J. Wang, Y. Morton, Q. Zhou, W. Pelgrum | 1833 - 1839 |
| Prediction of Regional Ionospheric Delays with Spherical Cap Harmonic Analysis and Vector Auto-Regressive Models. | M. Ohashi, K. Nishimoto, T. Sakai, Y. Kubo, S. Sugimoto | 1840 - 1847 |
| Mitigation of Ionospheric Mapping Function Error | M.M. Hoque, N. Jakowski | 1848 - 1855 |
| Ionosphere Magnetic Storm Occurrence Probability | M. Chassan, J-M. Azaïs, G. Buscarlet, N. Suard | 1856 - 1868 |
| Small-scale Ionospheric Delay Variation Associated with Plasma Bubbles Studied with GNSS and Optical Measurements and its Impact on GBAS | S. Saito, T. Yoshihara, Y. Otsuka | 1869 - 1874 |
| Ionosphere TEC and TEC Gradients Estimation Using a Regional GNSS Network | C. Wang, Y. Morton | 1875 - 1880 |
| Evaluation of GNSS RF Signal Simulators and Receivers Based on Recorded Multi GNSS Signals in Scenarios of Traffic Telematics | R. Richter, B. Wolf, O. Michler | 1881 - 1889 |
| Real-Time Utilization of IGS Stations in SPEED | F. Dufour, P. Larhantec, J.A. Gicquel, S. Boher | 1890 - 1896 |
| Navigation Enabler for Single Satellite Vehicle | J. Hsu, R.T. Bow, T. Tam, P.A. Toth | 1897 - 1906 |
| Recording and Replay of GNSS RF Signals for Multiple Constellations and Frequency Bands | S. Hickling, T. Haddrell | 1907 - 1918 |
| Automated Test-bench Infrastructure for GNSS Receivers – Case Study of the TUTGNSS Receiver | S. Thombre, J. Raasakka, T. Paakki, F. Della Rosa, M. Valkama, J. Nurmi | 1919 - 1930 |
| GNSS Over-the-Air Testing Using Wave Field Synthesis | A. Rügamer, G. Del Galdo, J. Mahr, G. Rohmer, G. Siegert, M. Landmann | 1931 - 1943 |
| A-GPS Assistance Network Delay Modeling and Estimation Over Mobile Networks | G. Huang, D. Akopian | 1944 - 1950 |
| An Integrated and Cost-Effective Simulation Tool for GNSS Space Receiver Algorithms Development | J.S. Silva, H.D. Lopes, T.R. Peres, J.M. Vasconcelos, M.M. Coimbra, P.F. Silva, P. Palomo, J. Pérez, J.A. Pulido, A. Garcia, J. Roselló | 1951 - 1961 |
| Receding Horizon Trajectory Optimization for Simultaneous Signal Landscape Mapping and Receiver Localization | Z.M. Kassas, J.A. Bhatti, T.E. Humphreys | 1962 - 1969 |
| Plug-and-play Information Fusion in an INS/GNSS/SoOps Integrated Navigation | X. Zhang, X. Zhan | 1970 - 1976 |
| Overcoming Errors in Processing Nonlinear Measurements: A New Extension for the Kalman Filter | A. Draganov | 1977 - 1987 |
| Effects of Non-Gaussian and Non-White Noise Processes on Image-Based Targeting for Mission-Critical Applications | M.J. Veth | 1988 - 1995 |
| An Innovative and Efficient Frequency Estimation Method for GNSS Signals Acquisition | P. Esteves | 1996 - 2006 |
| Multipath Mitigation Using Linear Adaptive Filtering Techniques. | S. Ugazio, L. Lo Presti, E. Falletti | 2007 - 2014 |
| Attitude Determination with low-cost GPS/ INS | P. Henkel, C. Günther | 2015 - 2023 |
| A New Multipath Detection and Mitigation Approach for Pseudolite Systems | O. Kurz, C. Mongredien, G. Rohmer | 2024 - 2031 |
| Climbing the GNSS Hill: Lessons from the Evolution of the GPSTk | B. Parsons, J. Little, B. Tolman, B. Renfro, S. Nelsen, D. Munton, B. Harris | 2032 - 2043 |
| Autonomous Snowplow Design | S. Craig, A. Naab-Levy, K. Li, R. Kollar, P. Duan, W. Pelgrum, F. van Graas, M. Uijt de Haag | 2044 - 2057 |
| Robust Wi-Fi Assisted GNSS Positioning in Urban Canyons | S. Ramakrishnan, D.W. Waters, J. Balakrishnan | 2058 - 2065 |
| Novel Integrity Monitoring for Train Navigation using a GNSS-IMU Bayesian Position Estimator and a Curvature Change Detector | B. Belabbas, A. Grosch | 2066 - 2074 |
| Reconfigurable Integration Filter Engine (RIFE) for Plug-and-Play Navigation | A. Soloviev, C. Yang | 2075 - 2083 |
| Relative Navigation with Displacement Measurements and its Absolute Correction | C. Yang, A. Soloviev | 2084 - 2093 |
| SIGIL: A Novel GNSS/INS Integration for Challenging Environment | J-B. Lacambre, M-L. Duplaquet, J-M. Louge, Y. Paturel, R. Deurloo, F. Boon, K. Smolders, B. Bougard | 2094 - 2101 |
| Detection and Mitigation of Errors on an Ultra-Tight Integration System Based on Integrity Monitoring Method | F. Qin, X. Zhan, X-L. X. Zhang | 2102 - 2113 |
| A Low-cost Integrated Navigation System of Quadrotor Aerial Vehicle: Design, Development and Performance | Z. Zhou, J. Zhang, Y. Zeng, J. Bai, L. Yang | 2114 - 2124 |
| A New Approach to Better Low-cost MEMS IMU Performance Using Sensor Arrays | H. Martin, P.D. Groves, M. Newman, R. Faragher | 2125 - 2142 |
| Attitude Determination Kalman Filter with a 1/f Flicker Noise Gyro Model | M.E. Pittelkau | 2143 - 2160 |
| Nuclear Magnetic Resonance Gyroscope: For DARPA’s Micro-Technology for Positioning, Navigation and Timing Program | M. Larsen, M. Bulatowicz | 2161 - 2165 |
| Thermal Analysis and Temperature Control Strategy for FOG-Based SINS | L. Fu, C. Duan | 2166 - 2174 |
| The Effects of Using Heading Measurement During Alignment of a Low-cost IMU/GPS System | M. Choi, D. Won, S. Sung, Y. Lee, J. Kim, J-P. Park, H-W. Park, Y.J. Lee | 2175 - 2179 |
| Railway Track Irregularity Measuring by GNSS/INS Integration | Q. Chen, Q. Zhang, Y. Cheng | 2180 - 2194 |
| Sensor Auto-Calibration on Dynamic Platforms in 3D | J. Britt, D. Bevly | 2195 - 2203 |
| The Development of a FOG Based Tightly Coupled GNSS/INS Integrated System with Simple Temperature Compensation Method for Land Applications | J-K. Liao, T-T. Duong, K-W. Chiang, T-H. Kuo | 2204 - 2212 |
| Robustness Evaluation and Improvements of an In-situ Hand Calibration Method for Low-end IMUs in Pedestrian Navigation Applications | Y. Li, X. Niu, Q. Wang, C. Shi | 2213 - 2220 |
| Performances and Applications Using TERRASTAR® Precise Point Positioning Service | J. Van Hees, L. LeThuaut, P. Nemry | 2221 - 2227 |
| Description and Applications of EDAS (EGNOS Data Access Service). | E. Lacarra, J. Vázquez, A.J. Gavín, J. Morán, M.A. Sánchez | 2228 - 2242 |
| Nexteq PP-RTK Technology and System | L. Urquhart, Y. Zhang, J. Chen, S. Lee, Y. Gao | 2243 - 2250 |
| CRI Presents the CRI NAV 100 | L. Stimac, D. Hartung, J. Suboski | 2251 - 2268 |
| Real-Time Navigation System for Ultra-Tight Integration of GNSS and Multi-Sensors | T. Li, J. Georgy, Z. Syed, C. Goodall | 2269 - 2275 |
| ARGUS: Assisting Personal Guidance System for People with Visual Impairment | O. Otaegui, J. Seybold, J. Spiller, A. Marconi, R. Olmedo, M. Dubielzig | 2276 - 2283 |
| Ultra-Low Power Host off-load GNSS Positioning | M. Torroja, S. Malkos, C. Verne | 2284 - 2291 |
| TERRASTAR® – Precise Point Positioning Service for Land and Near Shore Applications | G. Mack, D. McHardy, P. Toor, G. Wilcock | 2292 - 2298 |
| Wide Area Augmentation System (WAAS) – Program Update | D. Bunce | 2299 - 2326 |
| EGNOS V2 Program Update | D. Thomas | 2327 - 2342 |
| MSAS Status | T. Sakai, H. Tashiro | 2343 - 2360 |
| SDCM Development Strategy | S. Karutin | 2361 - 2372 |
| The Influence of the Ionosphere on SBAS | T. Walter | 2373 - 2393 |
| Evolution of SBAS: Two Frequencies & Multiple Constellations | T. Walter | 2394 - 2413 |
| ESA R&D Program GNSS Evolution Program Update | F. Toran | 2414 - 2439 |
| GNSS Bias Calibration Process and Results | P. D’Angelo, J. Pulido, D. Rincón, P. Silva, P. Vieira, F. Amarillo | 2440 - 2446 |
| Eliminating Potential Errors Caused by the Thin Shell Assumption: An Extended 3D UNB Ionospheric Modelling Technique | W. Zhang, R.B. Langley, A. Komjathy, S. Banville | 2447 - 2462 |
| Impact of Ionospheric Horizontal Asymmetry on Electron Density Profiles Derived by GNSS Radio Occultation | M.M. Shaikh, R. Notarpietro, R. Romero, F. Dovis | 2463 - 2469 |
| Correlation Properties of a 2-D Array of High Latitude Scintillation Receivers | G.S. Bust, S. Datta-Barua, K. Deshpande, S. Bourand, S. Skone, Y. Su | 2470 - 2479 |
| Modeling the Effects of Ionospheric Scintillation on GPS Carrier Phase Tracking Using High Rate TEC Data | R. Tiwari, H.J. Strangeways, S. Skone | 2480 - 2488 |
| Improved Troposphere Blind Models Based on Numerical Weather Data | G. Möller, R. Weber, J. Böhm | 2489 - 2495 |
| Benefit of Multi GNSS Processing with GPS, GLONASS, and QZSS for Tropospheric Monitoring | T. Iwabuchi, C. Rocken, A. Wada, M. Kanzaki | 2496 - 2507 |
| GNSS Radio Occultation Technique and Space Weather Monitoring | X. Yue, W.S. Schreiner, Y-H. Kuo, D.C. Hunt, C. Rocken | 2508 - 2522 |
| Comparative Ionosphere Electron Content Estimation Method in SBAS Performances | P. Alleau, G. Buscarlet, S. Trilles, M. Van Den Bossche, J. Bigot | 2523 - 2532 |
| Robust Open Service GNSS Receivers for Military Applications | G.A. McGraw, B. Disselkoen, G. Buesnel | 2533 - 2541 |
| Jamming Detection in GNSS Receivers: Performance Evaluation of Field Trials | E. Axell, F. M. Eklöf, M. Alexandersson, P. Johansson, D. M. Akos | 2542 - 2551 |
| Multi-Sensor, Signals of Opportunity Augmented GPS/GNSS Challenged Navigation | P. F. MacDoran, M.B. Mathews, K.L. Gold, J.L. Alvarez | 2552 - 2561 |
| Navigation-aiding Using a 94GHz Radar for Helicopter Operations | J. McKitterick, T. Case, M. Elgersma | 2562 - 2568 |
| Interference-Resistant Vertically-Guided Approaches for Military Aircraft in Civil Airspace | D.A. Stratton | 2569 - 2576 |
| On-the-Fly Estimation of Antenna Induced Biases in SFAP Based GNSS Antenna Arrays | Y.C. Chuang, I.J. Gupta | 2577 - 2582 |
| Evaluating Integrity and Continuity Risks of Cycle Resolution in the Presence of Receiver Faults | S. Khanafseh, S. Langel, M. Joerger and B. Pervan | 2583 - 2591 |
| GPS Integrity Architecture Opportunities | C.S. Miles, K. Kovach, J. Dobyne, K. Van Dyke, M. Weiss | 2592 - 2604 |
| Advanced RAIM System Architecture with a Long Latency Integrity Support Message | J. Blanch, T. Walter, P. Enge | 2605 - 2613 |
| An Analysis of ARAIM Performance Sensitivity to the Ground System Architecture Definition | C. Milner, C. Macabiau, C. Dulery, M. Mabilleau, N. Suard, C. Rodriguez, S. Pujol | 2614 - 2623 |
| Advanced RAIM Architecture Design and User Algorithm Performance in a Real GPS, GLONASS and Galileo Scenario | I. Martini, M. Rippl, M. Meurer | 2624 - 2636 |
| The Impact of GPS Modernization on Standalone User Performance and Integrity with ARAIM | S. Pullen, P. Enge, S. Shaw, C. Frey, J. Frye, M. Souder | 2637 - 2653 |
| Analysis of Multi-GNSS Service Performance Assessment: ARAIM vs. IBPL Performances Comparison | A. Cezón, M. Cueto, I. Fernández | 2654 - 2663 |
| RAIM with Non-Gaussian Errors | P. Misra, J. Rife | 2664 - 2671 |
| ESA’s Multi-Constellation Regional System Land Users Test-Bed Integrity Algorithms Experimentation Results | E. Domínguez, J. Simón, M. Seetzen, Y. Zheng, E. Wittmann, D. Lekaim, M. Tossaint, M. Jeannot | 2672 - 2689 |
| Performance of Advanced RAIM When an Earth Orientation Parameter Fault Affects the Satellites in View One at a Time | Y.C. Lee | 2690 - 2701 |
| Integrity Risk and Continuity Risk for Fault Detection and Exclusion Using Solution Separation ARAIM | M. Joerger, S. Stevanovic, F-C. Chan, S. Langel, B. Pervan | 2702 - 2722 |
| A Novel Multipath Estimation and Tracking Algorithm for Urban GNSS Navigation Applications | N. Sokhandan | 2723 - 2738 |
| Offline Analysis of BeiDou MEO-3 Signal Quality | C-Y. He, J. Guo, X. Lu, X. Wang | 2739 - 2748 |
| Multipath Mitigation by Voting Channel Impulse Response in Navigation Domain with High-sensitivity GNSS Receivers | Z. He, M. Petovello | 2749 - 2758 |
| Open GNSS Signal Authentication Based on the Galileo Commercial Service (CS) | O. Pozzobon, C. Sarto, A. Pozzobon, D. Dötterböck, B. Eissfeller, E. Pérez, D. Abia | 2759 - 2768 |
| Federated Filtering Algorithm of Heading Angle Based on Magnetometer/GPS/IMU Integrated Navigation System | X. Chen, H. Guo, H. Yin, M. Yu, J. Xiong | 2769 - 2775 |
| Subarray Selection for Adaptive Array Signal Processing in GNSS Applications | X. Wang, E. Aboutanios, M. Trinkle | 2776 - 2785 |
| Stability Criteria for GNSS Receiver Tracking Loops | P.W. Ward, T.D. Fuchser | 2786 - 2806 |
| A Modified Second-Order Extended Kalman Filter for Positioning | P. Lu, X. Liu, J. Yang, S. Yang | 2807 - 2813 |
| BeiDou Integration in Cellphones and Tablets, Preferred Architecture for Consumer Products | F. van Diggelen, K.W. Tan | 2814 - 2820 |
| Statistical Characterization of BeiDou Navigation Errors with A Consumer Multi-Constellation GNSS Receiver | C-T. Weng, C-W. Chen, W-H. Ting | 2821 - 2827 |
| Precision Limits of Low-Energy GNSS Receivers | K.M. Pesyna, Jr., R.W. Heath, Jr., T.E. Humphreys | 2828 - 2834 |
| Single Chip Receiver for GNSS and LEO Constellations | J. Cookman, G. Gutt, D. Lawrence | 2835 - 2839 |
| Multi-constellation GNSS Receiver for Rail Applications | A. Ferrario, L. Marradi, P. Iacone, A. Galimberti | 2840 - 2851 |
| An Insight on Mass Market Receivers Algorithms and their Performance with Galileo OS. | N. Linty, P. Crosta, P.G. Mattos, F. Pisoni | 2852 - 2861 |
| Techniques for 3D Misalignment Calculation for Portable Devices in Cycling Applications | H-W. Chang, J. Georgy, N. El-Sheimy | 2862 - 2867 |
| Beyond Where to How: A Machine Learning Approach for Sensing Mobility Contexts Using Smartphone Sensors | R.E. Guinness | 2868 - 2879 |
| Proving Location Using GPS Location Signatures: Why it is Needed and A Way to Do It | L. Scott | 2880 - 2892 |
| Signal Acquisition and Tracking of Chirp-Style GPS Jammers | R.H. Mitch, M.L. Psiaki, S.P. Powell, B.W. O'Hanlon | 2893 - 2909 |
| A Novel Detection and Tracking Algorithm of Chirp Type Civilian GNSS Interference | C.H. Kang, S.Y. Kim, C.G. Park | 2910 - 2915 |
| A Civil GPS Anti-Spoofing and Recovering Method Using Multiple Tracking Loops and an Adaptive Filter Technique | G.B. Moon, S-H. Im, G-I. Jee | 2916 - 2920 |
| Spoof Detection Using Multiple COTS Receivers in Safety Critical Applications | P.F. Swaszek, R.J. Hartnett | 2921 - 2930 |
| GNSS Spoofing Detection Based on a Sequence of RSS Measurements | V. Dehghanian, J. Nielsen | 2931 - 2936 |
| Autonomous Spoofing Detection and Mitigation in a GNSS Receiver with an Adaptive Antenna Array | A. Konovaltsev, M. Cuntz, C. Haettich, M. Meurer | 2937 - 2948 |
| GNSS Spoofing Detection using High-Frequency Antenna Motion and Carrier-Phase Data | M.L. Psiaki, S.P. Powell, B.W. O'Hanlon | 2949 - 2991 |
| PROSPA: Open Service Authentication | M. Turner, A. Chambers, E. Mak, L.E. Aguado, B. Wales, M. Dumville | 2992 - 2996 |
| GNSS Spoofing Detection Based on Particle Filtering | J. Nielsen, V. Dehghanian, N. Dawar | 2997 - 3005 |
| iGMAS and its Progress | X. Dong | 3006 - 3029 |
| Application of BeiDou in Civil Aviation | X. Rui | 3030 - 3064 |
| Galileo IOV Status and Results | R. Lucas Rodriguez | 3065 - 3093 |
| SAR/Galileo: The GALILEO Search and Rescue Service | I. Stojkovic, R. Morgan-Owen | 3094 - 3124 |
| Galileo System Update and “Early Services” | M. Lisi | 3125 - 3141 |
| European GNSS Evolution Programme EGEP | S. Wallner | 3142 - 3162 |
| GNSS Synthetic Aperture Processing with Artificial Antenna Motion | T. Pany, N. Falk, B. Riedl, C. Stöber, J. Winkel, H.-P. Ranner | 3163 - 3171 |
| Network RTK Computing in the Cloud and the Importance of Using GLONASS and QZSS | Z. Lukes, C. Rocken, L. Mervart, T. Iwabuchi, J. Barron, S. Cummins, M. Kanzaki, L. Mullen | 3172 - 3179 |
| Comparison of Methods for Determination of the Vertical Acceleration in Airborne Gravimetry Using LaCoste & Romberg Zero Length Spring Gravimeter | D. Zhong, R. Kingdon | 3180 - 3193 |
| Assessment of Multi-constellation RTK Solutions During Differential Correction Data Outages | V. Bhandari, K. O’Keefe, G. Lachapelle | 3194 - 3204 |
| Augmenting GPS RTK with Regional BeiDou in North America | J. Dou, K. O'keefe | 3205 - 3213 |
| New Systems, New Signals, New Positions – Providing BeiDou Integration | P. Fairhurst, X. Luo, A. Aponte | 3214 - 3220 |
| Investigation of Multipath Mitigation Methods for High Precision GNSS Applications | A. Broumandan, Y. Zhang, A. Schultz | 3221 - 3230 |
| A Portfolio Approach to NLOS and Multipath Mitigation in Dense Urban Areas | P.D. Groves, Z. Jiang, M. Rudi, P. Strode | 3231 - 3247 |
| GNSS Receiver Carrier Tracking Loop Impact on Ionosphere Scintillation Signal C/N0 and Carrier Phase Estimation | X. Mao, Y. Morton | 3248 - 3254 |
| Robust Receiver Design for Equatorial Regions During Solar Maximum | M. Najmafshar, F. Ghafoori, S. Skone | 3255 - 3262 |
| Integration of Vector Tracking Loop and Multipath Mitigation Technique and its Assessment | L-T. Hsu | 3263 - 3278 |
| Detection of Correlation Distortions Through Application of Statistical Methods | M. Pini, B. Motella, M, Troglia Gamba | 3279 - 3289 |
| Mitigation of CW PPDs via Signal Tracking Suppression | T. Kraus, B. Eissfeller | 3290 - 3294 |
| Characterization of Time to First Fix for Standalone and Aided GNSS Multi-constellation Receivers in Challenging Environments | T. Ferreira, F. Pelica, R.Sarnadas, L. Bonardi, P. Crosta, R. Prieto-Cerdeira | 3295 - 3304 |
| Navigating Above the GPS Constellation – Preliminary Results from the SGR-GEO on GIOVE-A | M. Unwin, R. De Vos Van Steenwijk, P. Blunt, Y. Hashida, S. Kowaltschek, L. Nowak | 3305 - 3315 |
| Flight Results of the NOX Dual-frequency GPS Receiver Payload On-board the TET Satellite | A. Hauschild, M. Markgraf, O. Montenbruck | 3316 - 3324 |
| Navigation Performance of Global Navigation Satellite Systems in the Space Service Volume | D.A. Force | 3325 - 3328 |
| GPS-Based Precise Relative Orbit Determination for LEO Satellites Using GPS Double-Differenced Carrier Phases | Z. Kang , B. Tapley, S. Bettadpur, P. Nagel | 3329 - 3335 |
| Leveraging the L1Composite Signal to Enable Autonomous Navigation at GEO and Beyond | S. Ramakrishnan, T. Reid, P. Enge | 3336 - 3346 |
| GNSS-based Precise Orbit Determination for a Highly Eccentric Orbit in the STE-QUEST Mission | G. Hechenblaikner, J-J. Floch, F. Soualle, M-P. Hess | 3347 - 3356 |
| Weak GNSS Signal Navigation to the Moon | P.F. Silva, H.D. Lopes, T.R. Peres, J.S. Silva, J. Ospina, F. Cichocki, F. Dovis, L. Musumeci, D. Serant, T. Calmettes, I. Pessina, J.V. Perelló | 3357 - 3367 |
| Performance Demonstration of NSPO Space-borne GPS Receiver | H-Y. Chang, H-C., Chang, C-T. Lin | 3368 - 3377 |
| Preparing for New Wireless Spectrum Policies, Is the GNSS Industry Ready? | R. Lee, J.D. Litton, P. Williams | 3378 - 3390 |
| An Interference Monitoring System for GNSS Reference Stations | J. Wendel, C. Kurzhals, M. Houdek, J. Samson | 3391 - 3398 |
| Joint Space-Time Interference Mitigation for Embedded Multi-Antenna GNSS Receivers | M.H. Castañeda, M. Stein, F. Antreich, E. Tasdemir, L. Kurz, T.G. Noll, J.A. Nossek | 3399 - 3408 |
| Analysis of DME/TACAN Interference on the Lower L-Band | A. Steingass | 3409 - 3416 |
| Continuous Adaptive Interference Nulling for Defeat of Wideband GNSS Interference | R. Vosburgh, V. Haridasan, C. Wilson | 3417 - 3423 |
| Optimization of a Blind Adaptive Spatial Filter for Interference Mitigation in GNSS Receivers | E. Tasdemir, L. Kurz, T.G. Noll | 3424 - 3432 |
| Overcoming RFI with High Mask Angle Antennas and Multiple GNSS Constellations | L. Heng, T. Walter, P. Enge, G.X. Gao | 3433 - 3442 |
| The Karhunen-Loève Transform as a Future Instrument to Interference Mitigation | A. Szumski, B. Eissfeller | 3443 - 3449 |
| QRD-based and SMI-based MVDR Beamforming for GNSS Software Receivers | L.T. Ong, B. Sarankumar | 3450 - 3455 |
| Transform Domain Interference Suppression in GPS/BD-2 Receiver Based on Fractional Fourier Transforms | Y. Zhang, H. Wu, Y. Gao | 3456 - 3463 |
| Performance Analysis of Micro/Nano Scale Oscillators in GPS Receiver Applications | S.K. Kalyanaraman, J.A. Lovseth, A.J. Reichenauer, J. Rogers | 3464 - 3473 |
| A Pilot Experiment for GPS Link Calibration Between TL-MSL | J-L. Wang, Y-J. Huang, H-T. Lin, C-S. Liao, S-Y. Lin, T. Armstrong, S-Y. Huang | 3474 - 3479 |
| Investigating Natural Hazards Using GNSS Measurements: The Chelyabinsk Meteor Ionospheric Impact | Y-M. Yang, A. Komjathy, M. Butala, A.J. Mannucci, R.B. Langley, J. Snively, M. Hickey, D. Galvan, J. Lee | 3480 - 3488 |
| Evaluating Aircraft Positioning Methods for Airborne Gravimetry: Results from GRAV-D’s “Kinematic GPS Processing Challenge” | T.M. Damiani, A. Bilich, G.L. Mader | 3489 - 3507 |
| Joint Positioning and Time Synchronization for APNT | M. Suess, B. Belabbas, M. Meurer | 3508 - 3515 |
| A Feasible Clock Control and Synchronization Method Used in CAPS Master Station | W. Jing, X. Lu, J. Wang, D. Zhao, C. He, Y. Rao | 3516 - 3520 |
| Optimal Doppler-Aided Autonomous Position with a Flexible Smoothing Window Width | X. Liu, S. Yang, J. Yang, P. Lu | 3521 - 3527 |
| A New Proposal for a FLL Discriminator Based on Energy | X. Tang, E. Falletti, L. Lo Presti | 3528 - 3535 |
| A Robust Technique for Unambiguous BOC Tracking | J. Wendel, F. M. Schubert, S. Hager | 3536 - 3547 |
| Design of an Adaptive Vector-tracking Loop for Reliable Positioning in Harsh Environment | S.F. Syed Dardin, V. Calmettes, B. Priot, J-Y. Tourneret | 3548 - 3559 |
| New Algorithm for GNSS Positioning Using System of Linear Equations | B. Oszczak | 3560 - 3563 |
| Indoor Multipath Characterization and Separation Using Distortions in GPS Receiver Correlation Peaks | V. Bellad, M.G. Petovello | 3564 - 3576 |
| Interference Detection Based on Time-Frequency Analysis for GNSS | K. Sun, W. Liu, H. Xu, D. Yang | 3577 - 3585 |
| Trade-off Analysis of Robust Carrier Phase Tracking Techniques in Challenging Environments | R. Sarnadas, T. Ferreira, J. Vilà-Valls, G. Seco-Granados, J.A. López-Salcedo, F.D. Nunes, F.M. G. Sousa, P. Crosta, F. Zanier, R. Prieto-Cerdeira | 3586 - 3599 |
| Determination of Early-Late Discriminator Errors on Filtered BPSK Waveforms | B. Fonville, E. Powers, D. Matsakis | 3600 - 3606 |
| Parallel Acquisition of GNSS Signal Based on Combined Code | L. Xu, K. Chen, R. Ying, P. Liu, W. Yu | 3607 - 3614 |
| Multi-Sensor Fusion for Navigation of Autonomous Vehicles | A. Soloviev | 3615 - 3632 |
| Unmanned Systems (Robotics): Challenges and Opportunities | D. Gebre-Egziabher | 3633 - 3670 |
