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Raskaliyev A Patel SH Sobh TM Ibrayev A GNSS-based attitude determination techniques-a comprehensive literature survey IEEE Access 2020 8 24873 24886 10.1109/ACCESS.2020.2970083 Google Scholar.Plotnikov PK An approach to designing algorithms for determining vehicle heading using onboard multipoint magnetic measurements Gyrosc Navig 2014 5 2 113 120 10.1134/S2075108714020084 Google Scholar.In: Proceedings of IEEE/ION PLANS 2016, Institute of Electrical and Electronics Engineers, Savannah, GA, USA, April 11–14, pp 630–637 Google Scholar Liu S, Zhang L, Li J, Luo Y (2016) Dual frequency long-short baseline ambiguity resolution for GNSS attitude determination.MS Thesis, University of Calgary, Calgary, Canada Google Scholar Keong JH (1999) Determining heading and pitch using a single difference GPS/GLONASS approach.In: Proceedings of ION GPS 1991, Institute of Navigation, Albuquerque, NM, USA, September 11–13, pp 991–1000 Google Scholar Jurgens RD, Rodgers CE, Fan LC (1991) Advances in GPS attitude determining technology as developed for the strategic defense command.Hoffmann-Wellenhof B Lichtenegger H Collins J Global positioning system: theory and practice 1992 Berlin Springer 10.1007/978-3-7091-5126-6 Google Scholar.Han S Wang J A novel initial alignment scheme for low-cost INS aided by GPS for land vehicle applications J Navig 2010 63 4 663 680 10.1017/S0373463310000214 Google Scholar.In: Proceedings ION GNSS 2009, Institute of Navigation, Savannah, GA, USA, September 22–25, pp 1775–1784 Google Scholar Groves PD, Handley RJ, Parker ST (2009) Vehicle heading determination using only single-antenna GPS and a single Gyro.In: Proceedings of ION NTM 1991, Institute of Navigation, Phoenix, AZ, USA, January 22–24, pp 35–41 Google Scholar Ferguson K, Kosmalska J, Kuhl M, Eichner J M, Kepski K (1991) Three-dimensional attitude determination with the Ashtech 3DF 24-channel GPS measurement system.In: Proceedings of ION AM, Institute of Navigation, Albuquerque, NM, USA, June 11–13, pp 423–428 Google Scholar Farrell JL (2001) Carrier phase processing without integers.Ding W Wang J Precise velocity estimation with a stand-alone GPS receiver J Navig 2011 64 2 311 325 10.1017/S0373463310000482 Google Scholar.II Progress in astronautics and aeronautics 1996 Washington DC AIAA 519 538 Google Scholar Global positioning system: theory and applications, vol. Cohen CE Parkinson BW Spilker JJ Attitude determination.Thesis, Stanford University, Stanford, CA, USA Google Scholar Cohen CE (1992) Attitude determination using GPS.In: China satellite navigation conference (CSNC) 2017 proceedings: volume I, lecture notes in electrical engineering 437: 267–275 Google Scholar Chen W, Yu C, Cai M, Dong Y (2017) Single-antenna attitude determination using GNSS for low-dynamic carrier.Bahder TB Attitude determination from single-antenna carrier-phase measurements J Appl Phys 2002 91 7 4677 4684 10.1063/1.1448871 Google Scholar.Aleshechkin AM Algorithm of GNSS-based attitude determination Gyrosc Navig 2011 2 4 269 276 10.1134/S207510871104002X Google Scholar.Alban S (2004) Design and performance of a robust GPS/INS attitude system for automobile applications.We describe the toolbox and its implementation in MATLAB in detail. The results show that both proposed TDCP- and TDPR-based models are able to provide an accurate heading and pitch estimation with a root mean square error below the one-degree level, which is sufficient for many land-based applications. In this toolbox, by using the constraints of the vehicle motion and road geometry, two variations in a time-differenced measurement model, i.e., Time-Differenced Carrier Phase (TDCP) and Time-Differenced Pseudorange (TDPR), are developed for heading and pitch determination. In order to find a cost-effective solution, we propose here a new toolbox named Vehicle Attitude Determination toolbox from the Intelligent Transportation And Geomatics group (iTAG_VAD) that determines vehicle dynamic heading and pitch using only one single-frequency GPS antenna, reducing costs while retaining an acceptable heading and pitch accuracy. This information can be determined through various solutions of onboard sensors, including magnetic sensors, inertial sensors, GNSS equipment, and their combinations. The attitude information of ground vehicles, i.e., heading and pitch information, can be used for many transport applications.