Back Article

Chen C, Huang X, Sun W, Tan L. 2014. Impact of metal obstacles on wireless power transmission system based coupled resonance. Transactions of China Electrotechnical Society 29(9):22−26

Zhao ZM, Zhang YM, Chen KN. 2013. New progress of magnetically-coupled resonant wireless power transfer technology. Proceedings of the Chinese Society of Electrical Engineering 33:1−13

Azad A, Kulyukin V, Pantic Z. 2019. Misalignment tolerant DWPT charger for EV roadways with integrated foreign object detection and driver feedback system. 2019 IEEE Transportation Electrification Conference and Expo (ITEC), Detroit, MI, USA, 19−21 June, 2019. Detroit, MI, USA: IEEE. pp. 1−5. doi: 10.1109/ITEC.2019.8790600

Jeong SY, Kwak HG, Jang GC, Choi SY, Rim CT. 2018. Dual-purpose nonoverlapping coil sets as metal object and vehicle position detections for wireless stationary EV chargers. IEEE Transactions on Power Electronics 33:7387−97

Sonnenberg T, Stevens A, Dayerizadeh A, Lukic S. 2019. Combined foreign object detection and live object protection in wireless power transfer systems via real-time thermal camera analysis. 2019 IEEE Applied Power Electronics Conference and Exposition (APEC). Anaheim, CA, USA, 17−21 March, 2019. USA: IEEE. pp. 1547−52. doi: 10.1109/APEC.2019.8721804

Liou CY, Kuo CJ, Mao SG. 2016. Wireless powering system with backside metallic plates using electric- and magnetic-coupling mechanisms. 2016 IEEE International Symposium on Radio-Frequency Integration Technology (RFIT), Taipei, China, 24−26 August, 2016. USA: IEEE. pp. 1−3. doi: 10.1109/RFIT.2016.7578158

Liu X, Liu C, Han W, Pong PWT. 2019. Design and implementation of a multi-purpose TMR sensor matrix for wireless electric vehicle charging. IEEE Sensors Journal 19:1683−92

Kikuchi H. 2013. Metal-loop effects in wireless power transfer systems analyzed by simulation and theory. 2013 IEEE Electrical Design of Advanced Packaging Systems Symposium (EDAPS), Nara, Japan, 12−15 December, 2013. USA: IEEE. pp. 201−4. doi: 10.1109/EDAPS.2013.6724424

Low ZN, Casanova JJ, Maier PH, Taylor JA, Chinga RA, et al. 2010. Method of load/fault detection for loosely coupled planar wireless power transfer system with power delivery tracking. IEEE Transactions on Industrial Electronics 57:1478−86

Kuyvenhoven N, Dean C, Melton J, Schwannecke J, Umenei AE. 2011. Development of a foreign object detection and analysis method for wireless power systems. 2011 IEEE Symposium on Product Compliance Engineering Proceedings, San Diego, CA, USA, 10-12 October 2011. USA: IEEE. pp. 1−6. doio: 10.1109/PSES.2011.6088250

Lan L, Ting NM, Aldhaher S, Kkelis G, Kwan CH, et al. 2018. Foreign object detection for wireless power transfer. 2018 2 ^nd URSI Atlantic Radio Science Meeting (AT-RASC), Gran Canaria, Spain, 28 May − 1 June 2018. USA: IEEE. pp. 1−2. doi: 10.23919/URSI-AT-RASC.2018.8471551

Liu X, Pong PWT, Liu C. 2018. Dual measurement of current and temperature using a single tunneling magnetoresistive sensor. 2018 IEEE SENSORS, New Delhi, India, 28−31 October 2018. USA: IEEE. pp. 1−4. doi: 10.1109/ICSENS.2018.8589743

Sonapreetha MR, Jeong SY, Choi SY, Rim CT. 2015. Dual-purpose non-overlapped coil sets as foreign object and vehicle location detections for wireless stationary EV chargers. 2015 IEEE PELS Workshop on Emerging Technologies: Wireless Power (2015 WoW), Daejeon, Korea (South), 5−6 June, 2015. USA: IEEE. pp. 1−7. doi: 10.1109/WoW.2015.7132803

Jeong SY, Thai VX, Park JH, Rim CT. 2019. Self-inductance-based metal object detection with mistuned resonant circuits and nullifying induced voltage for wireless EV chargers. IEEE Transactions on Power Electronics 34:748−58

Xiang L, Zhu Z, Tian J, Tian Y. 2019. Foreign object detection in a wireless power transfer system using symmetrical coil sets. IEEE Access 7:44622−31

Thai VX, Jang GC, Jeong SY, Park JH, Kim YS, et al. 2020. Symmetric sensing coil design for the blind-zone free metal object detection of a stationary wireless electric vehicles charger. IEEE Transactions on Power Electronics 35:3466−77

Thai VX, Park JH, Jeong SY, Rim CT, Kim YS. 2020. Equivalent-circuit-based design of symmetric sensing coil for self-inductance-based metal object detection. IEEE Access 8:94190−203

Cheng B, Lu J, Zhang Y, Pan G, Chabaan R, et al. 2020. A metal object detection system with multilayer detection coil layouts for electric vehicle wireless charging. Energies 13:2960

Tan L, Li J, Chen C, Yan C, Guo J, et al. 2016. Analysis and performance improvement of WPT systems in the environment of single non-ferromagnetic metal plates. Energies 9:576

Li C, Cao J, Zhang H. 2015. Modeling and analysis for magnetic resonance coupling wireless power transmission systems under influence of non-ferromagnetic metal. Automation of Electric Power Systems 39:152−57

Nguyen DH, Chapman A. 2021. The potential contributions of universal and ubiquitous wireless power transfer systems towards sustainability. International Journal of Sustainable Engineering 14:1780−90

Team CAI. 2017. Europe and the future for WPT: European contributions to wireless power transfer technology. IEEE Microwave Magazine 18:56−87

Jawad AM, Nordin R, Gharghan SK, Jawad HM, Ismail M. 2017. Opportunities and challenges for near-field wireless power transfer: a review. Energies 10:1022

Barman SD, Reza AW, Kumar N, Karim ME, Munir AB. 2015. Wireless powering by magnetic resonant coupling: recent trends in wireless power transfer system and its applications. Renewable and Sustainable Energy Reviews 51:1525−52

Mohsan SAH, Khan MA, Mazinani A, Alsharif MH, Cho HS. 2022. Enabling underwater wireless power transfer towards sixth generation (6G) wireless networks: opportunities, recent advances, and technical challenges. Journal of Marine Science and Engineering 10:1282

Chhawchharia S, Sahoo SK, Balamurugan M, Sukchai S, Yanine F. 2018. Investigation of wireless power transfer applications with a focus on renewable energy. Renewable and Sustainable Energy Reviews 91:888−902

Suja S, Sathish Kumar T. 2013. Solar based wireless power transfer system. 2013 International Conference on Computation of Power, Energy, Information and Communication (ICCPEIC), Chennai, India, 17−18 April 2013. USA: IEEE. pp. 93−99. doi: 10.1109/ICCPEIC.2013.6778505

Khalid R, Naeem M, Ejaz W. 2022. Autonomous aerial networks with wireless power transfer: resource optimization, standardization, and challenges. IEEE Communications Standards Magazine 6:24−31

Yoo S, Lee J, Joo H, Sunwoo SH, Kim S, et al. 2021. Wireless power transfer and telemetry for implantable bioelectronics. Advanced Healthcare Materials 10(17):2100614

El-Shahat A, Ayisire E, Wu Y, Rahman M, Nelms D. 2019. Electric vehicles wireless power transfer state-of-the-art. Energy Procedia 162:24−37

Panchal C, Stegen S, Lu J. 2018. Review of static and dynamic wireless electric vehicle charging system. Engineering Science and Technology, an International Journal 21:922−37

Moyssides PG. 2014. The anticipated longitudinal forces by the Biot-Savart-Grassmann-Lorentz force law are in complete agreement with the longitudinal Ampère forces. The European Physical Journal Plus 129:34

Angurala M. 2023. A review on energy efficient techniques for wireless sensor networks. International Journal of Intelligent Systems and Applications in Engineering 11:171−82

Giuliani G. 2008. A general law for electromagnetic induction. Europhysics Letters 81(6):60002

Coufal O. 2017. Faraday's law of electromagnetic induction in two parallel conductors. International Journal of Applied Electromagnetics and Mechanics 54:263−80

Okasili I, Elkhateb A, Littler T. 2022. A review of wireless power transfer systems for electric vehicle battery charging with a focus on inductive coupling. Electronics 11:1355

Degen C. 2021. Inductive coupling for wireless power transfer and near-field communication. EURASIP Journal on Wireless Communications and Networking 2021:121

Thiagarajan K, Deepa T. 2023. A comprehensive review of high-frequency transmission inverters for magnetic resonance inductive wireless charging applications in electric vehicles. IETE Journal of Research 69:2761−71

Tran MT, Thekkan S, Polat H, Tran DD, El Baghdadi M, et al. 2023. Inductive wireless power transfer systems for low-voltage and high-current electric mobility applications: review and design example. Energies 16:2953

Kamarudin SI, Ismail A, Sali A, Ahmad MY, Ismail I, et al. 2022. 5G magnetic resonance coupling planar spiral coil wireless power transfer. Trends in Sciences 20:3444

Uddin MK, Ramasamy G, Mekhilef S, Ramar K, Lau YC. 2014. A review on high frequency resonant inverter technologies for wireless power transfer using magnetic resonance coupling. 2014 IEEE Conference on Energy Conversion (CENCON). Johor Bahru, Malaysia, 13−14 October 2014. USA: IEEE. pp. 412−17. doi: 10.1109/CENCON.2014.6967539

Butler JC, Vigliotti AJ, Verdi FW, Walsh SM. 2002. Wireless, passive, resonant-circuit, inductively coupled, inductive strain sensor. Sensors and Actuators A: Physical 102:61−66

Zheng Y, Wei Z, Yan H, Huang L, Gao Y. 2022. Impedance matching method for magnetic resonance coupling human body communication. 2022 IEEE 10 ^th Asia-Pacific Conference on Antennas and Propagation (APCAP), Xiamen, China, 4−7 November 2022. USA: IEEE. pp. 1−2. doi: 10.1109/APCAP56600.2022.10069779

Fisher TM, Farley KB, Gao Y, Bai H, Tse ZTH. 2014. Electric vehicle wireless charging technology: a state-of-the-art review of magnetic coupling systems. Wireless Power Transfer 1:87−96

Huang Z, Guan T, Wang Z, Wei J, Wang S, et al. 2022. Maximum efficiency tracking design of wireless power transmission system based on machine learning. Energy Reports 8:447−55

Choi BG, Kim YS. 2021. New structure design of ferrite cores for wireless electric vehicle charging by machine learning. IEEE Transactions on Industrial Electronics 68:12162−72

Ma F, Liu X, Ansari N. 2022. Electromagnetic radiation safety on far-field wireless power transfer in IoT. GLOBECOM 2022 - 2022 IEEE Global Communications Conference, Rio de Janeiro, Brazil, 4−8 December 2022. USA: IEEE. pp. 4995−5000. doi: 10.1109/GLOBECOM48099.2022.10001490

He S, Hu K, Li S, Fu L, Gu C, et al. 2024. A robust RF-based wireless charging system for dockless bike-sharing. IEEE Transactions on Mobile Computing 23:2395−406

Katsidimas I, Kerimakis E, Nikoletseas S. 2019. Placement optimization in wireless charging systems under the vector model. 15 ^th International Conference on Distributed Computing in Sensor Systems (DCOSS). Santorini, Greece, 29−31 May 2019. USA: IEEE. pp. 473−80. doi: 10.1109/DCOSS.2019.00093

Ahmad A, Alam MS, Chabaan R. 2018. A comprehensive review of wireless charging technologies for electric vehicles. IEEE Transactions on Transportation Electrification 4:38−63

Joseph PK, Elangovan D. 2018. A review on renewable energy powered wireless power transmission techniques for light electric vehicle charging applications. Journal of Energy Storage 16:145−55

Zeng Y, Clerckx B, Zhang R. 2017. Communications and signals design for wireless power transmission. IEEE Transactions on Communications 65:2264−90

Huda SMA, Arafat MY, Moh S. 2022. Wireless power transfer in wirelessly powered sensor networks: a review of recent progress. Sensors 22:2952

Ding J, Liu W, Chih-Lin I, Zhang H, Mei H. 2020. Advanced progress of optical wireless technologies for power industry: an overview. Applied Sciences 10:6463

Lu X, Wang P, Niyato D, Kim DI, Han Z. 2016. Wireless charging technologies: fundamentals, standards, and network applications. IEEE Communications Surveys & Tutorials 18:1413−52

Bidkar R. 2012. Space Based Solar Power (SBSP): an emerging technology. 2012 IEEE 5 ^th India International Conference on Power Electronics (IICPE), Delhi, India, 6−8 December 2012. USA: IEEE. pp. 1−4. doi: 10.1109/IICPE.2012.6450440

Mishra RK, Mishra AK. 2023. Space based Solar Power: feasibility Microwave based wireless power system. Journal of Marine Science and Research 2:1−5

Sabarish P, Hubert Tony Raj L, Ramprakash G, Karthick R. 2020. An energy efficient microwave based wireless solar power transmission system. IOP Conference Series: Materials Science and Engineering 937:012013

Li B, Liu S, Zhang HL, Hu BJ, Zhao D, et al. 2019. Wireless power transfer based on microwaves and time reversal for indoor environments. IEEE Access 7:114897−908

Karimi MJ, Schmid A, Dehollain C. 2021. Wireless power and data transmission for implanted devices via inductive links: a systematic review. IEEE Sensors Journal 21:7145−61

Yeh ER, Choi J, Prelcic NG, Bhat CR, Heath RW Jr. 2016. Security in automotive radar and vehicular networks. Microwave Journal 60(5):148−64

Zeng Y, Lu C, Liu R, He X, Rong C, et al. 2023. Wireless power and data transfer system using multidirectional magnetic coupler for swarm AUVs. IEEE Transactions on Power Electronics 38:1440−44

Gu X, Hemour S, Wu K. 2022. Far-field wireless power harvesting: nonlinear modeling, rectenna design, and emerging applications. Proceedings of the IEEE 110:56−73

Moisello E, Liotta A, Malcovati P, Bonizzoni E. 2023. Recent trends and challenges in near-field wireless power transfer systems. IEEE Open Journal of the Solid-State Circuits Society 3:197−213

Albreem MA, Sheikh AM, Alsharif MH, Jusoh M, Mohd Yasin MN. 2021. Green Internet of Things (GIoT): applications, practices, awareness, and challenges. IEEE Access 9:38833−58

Pravin AMA, Narayanan AG, Balaganesh R, Manikandan P, Saravanan J. 2014. Wireless power transmission using indcutive coupling. International Journel of Emerging Technology and Computer Science 8(1):126−30

Biswa R. 2012. Feasibility of wireless power transmission. Seminar Report. Electronics and Communication Engineering, College of Science and Technology, Rinchending, Phuentsholing. pp. 1−23

Soares L, Wang H. 2022. A study on renewed perspectives of electrified road for wireless power transfer of electric vehicles. Renewable and Sustainable Energy Reviews 158:112110

Liu W, Chau K, Tian X, Wang H, Hua Z. 2023. Smart wireless power transfer—opportunities and challenges. Renewable and Sustainable Energy Reviews 180:113298

Wang C, Ma Z. 2016. Design of wireless power transfer device for UAV. 2016 IEEE International Conference on Mechatronics and Automation, Harbin, China, 7−10 August, 2016. USA: IEEE. pp. 2449−54. doi: 10.1109/ICMA.2016.7558950

Suh IS, Kim J. 2013. Electric vehicle on-road dynamic charging system with wireless power transfer technology. 2013 International Electric Machines & Drives Conference, Chicago, IL, USA, 12−15 May 2013. USA: IEEE. pp. 234−40. doi: 10.1109/IEMDC.2013.6556258

Ullah MA, Keshavarz R, Abolhasan M, Lipman J, Esselle KP, et al. 2022. A review on antenna technologies for ambient RF energy harvesting and wireless power transfer: designs, challenges and applications. IEEE Access 10:17231−67

Lin HT, Wu YC, Hsieh PH, Yang CH. 2017. Integration of energy-recycling logic and wireless power transfer for ultra-low-power implantables. 2017 IEEE International Symposium on Circuits and Systems (ISCAS). Baltimore, MD, USA, 28−31 May, 2017. USA: IEEE. pp. 1−4. doi: 10.1109/ISCAS.2017.8050378

Lu C, Rong C, Huang X, Hu Z, Tao X, et al. 2019. Investigation of negative and near-zero permeability metamaterials for increased efficiency and reduced electromagnetic field leakage in a wireless power transfer system. IEEE Transactions on Electromagnetic Compatibility 61:1438−46

Raza U, Salam A. 2020. Zenneck waves in decision agriculture: an empirical verification and application in EM-based underground wireless power transfer. Smart Cities 3:308−40

La Rosa R, Livreri P, Trigona C, Di Donato L, Sorbello G. 2019. Strategies and techniques for powering wireless sensor nodes through energy harvesting and wireless power transfer. Sensors 19:2660

Hui SYR. 2018. Technical and safety challenges in emerging trends of near-field wireless power transfer industrial guidelines. IEEE Electromagnetic Compatibility Magazine 7:78−86

Lin JC. 2021. Safety of wireless power transfer. IEEE Access 9:125342−47

Bi Z, Kan T, Mi CC, Zhang Y, Zhao Z, et al. 2016. A review of wireless power transfer for electric vehicles: prospects to enhance sustainable mobility. Applied Energy 179:413−25

Triviño A, González-González JM, Aguado JA. 2021. Wireless power transfer technologies applied to electric vehicles: a review. Energies 14:1547

Ron Hui SY. 2016. Past, present and future trends of non-radiative wireless power transfer. CPSS Transactions on Power Electronics and Applications 1:83−91

Xie L, Shi Y, Hou YT, Sherali HD. 2012. Making sensor networks immortal: an energy-renewal approach with wireless power transfer. IEEE/ACM Transactions on Networking 20:1748−61

St John SA. 2017. Investigating wireless power transfer. Physics Education 52(5):055008

Delichte SD, Lu YJ, Bobowski JS. 2018. Non-radiative mid-range wireless power transfer: an experiment for senior physics undergraduates. American Journal of Physics 86:623−32

Sridhar B, Kathirvel C, Balamurugan SB, Hariprasad P. 2023. Design of efficient wireless charging pad deployment and maximizing the power transfer technique for an autonomous electric vehicle charging. 2023 Second International Conference on Electronics and Renewable Systems (ICEARS), Tuticorin, India, 2−4 March, 2023. USA: IEEE. pp. 347−54. doi: 10.1109/ICEARS56392.2023.10085244

Gonzalez M, Xu P, Dekimpe R, Schramme M, Stupia I, et al. 2023. Technical and ecological limits of 2.45-GHz wireless power transfer for battery-less sensors. IEEE Internet of Things Journal 10:15431−42

Li T, Wu L, Chen Z. 2015. Research overview on wireless power transmission technology. MATEC Web of Conferences 22:02021

Wang Q, Li H. 2011. Research on the wireless power transmission system based on coupled magnetic resonances. 2011 International Conference on Electronics, Communications and Control (ICECC), Ningbo, China, 2011. pp. 2255−58. doi: 10.1109/ICECC.2011.6067744

Yang Q, Chen H, Xu G, Sun M, Fu W. 2010. Research progress in contactless power transmission technology. Transactions of China Electrotechnical Society 25(7):6−13

Liu C, Wang F, Shi K, Wang X, Sun Z. 2014. Robust H_∞ control for satellite atti-tude control system with uncertainties and additive per-turbation. International Journal of Science 1(2):1−9

Shi K, Sun Z, Liu C, Wang F. 2015. Design of microsatellite attitude control with multiplicative perturbation of controller. The 27 ^th Chinese Control and Decision Conference (2015 CCDC), Qingdao, China, 23−25 May 2015. USA: IEEE. pp. 491−95. doi: 10.1109/CCDC.2015.7161742

Li J. 2017. Research progress of wireless power transmission technology and the related problems. AIP Conference Proceedings 1820:090023

Liu Y, Xiao J, Zhao X, Wu J, Du Y, et al. 2023. Development and application review on wireless power transmission technology. Technology of Electrical Engineering and Energy 42(2):48−67

Liu C, Wang F. 2014. In-orbit estimation of inertia parameters of target satellite after capturing the tracking satellite. Proceeding of the 11 ^th World Congress on Intelligent Control and Automation, Shenyang, China, 29 June − 4 July 2014. USA: IEEE. pp. 3942−47. doi: 10.1109/WCICA.2014.7053375

McSpadden JO, Mankins JC. 2002. Space solar power programs and microwave wireless power transmission technology. IEEE Microwave Magazine 3:46−57

Brown WC. 1996. The history of wireless power transmission. Solar Energy 56:3−21

Huang H, Huang X, Tan L, Ding X. 2011. Research on transmitter and receiver of wireless power transmission based on magnetic resonance coupling. Advanced Technology of Electrical Engineering and Energy 30(1):32−35

Matsumoto H. 2002. Research on solar power satellites and microwave power transmission in Japan. IEEE Microwave Magazine 3:36−45

Fan X, Mo X, Zhang X. 2015. Research status and application of wireless power transmission technology. Proceedings of the Chinese Society of Electrical Engineering 35:2584−600

Liu C, Shi K, Wang F. 2014. Mass and mass center identification of target satellite after rendezvous and docking. Proceeding of the 11 ^th World Congress on Intelligent Control and Automation, Shenyang, China, 29 June − 4 July, 2014. USA: IEEE. pp. 5802−7. doi: 10.1109/WCICA.2014.7053711

Tan L, Huang X, Huang H, Zou Y, Li H. 2011. Transfer efficiency optimal control of magnetic resonance coupled system of wireless power transfer based on frequency control. Science China Technological Sciences 54:1428−34

Amjad M, Farooq-i-Azam M, Ni Q, Dong M, Ahmad Ansari E. 2022. Wireless charging systems for electric vehicles. Renewable and Sustainable Energy Reviews 167:112730

Machura P, Li Q. 2019. A critical review on wireless charging for electric vehicles. Renewable and Sustainable Energy Reviews 104:209−34

Zhou B, Pei J, Calautit JK, Zhang J, Guo F. 2021. Solar self-powered wireless charging pavement—a review on photovoltaic pavement and wireless charging for electric vehicles. Sustainable Energy & Fuels 5:5139−59

Urano M, Ata K, Takahashi A. 2017. Study on underwater wireless power transfer via electric coupling with a submerged electrode. 2017 IEEE International Meeting for Future of Electron Devices, Kansai (IMFEDK). Kyoto, Japan, 29−30 June, 2017. USA: IEEE. pp. 36−37. doi: 10.1109/IMFEDK.2017.7998030

Ji L, Zhang C, Ge F, Qian B, Sun H. 2022. A parameter design method for a wireless power transmission system with a uniform magnetic field. Energies 15:8829

Van Mulders J, Delabie D, Lecluyse C, Buyle C, Callebaut G, et al. 2022. Wireless power transfer: systems, circuits, standards, and use cases. Sensors 22:5573

Xia J, Yuan X, Li J, Lu S, Cui X, et al. 2020. Foreign object detection for electric vehicle wireless charging. Electronics 9:805

Cai S, Liu Z, Luo X, Shi Z, Xie Y, et al. 2024. Research on metal and living foreign object detection method for electric vehicle wireless charging system. World Electric Vehicle Journal 15:34

Deng W, Pei W, Teng Y, Wu Q, Yi Y, et al. 2023. Coordinated control and application of multi-terminal DC distribution system. Energy Reports 9:11−21

Martel J, Chang SH, Chevalier G, Ojcius DM, Young JD. 2023. Influence of electromagnetic fields on the circadian rhythm: implications for human health and disease. Biomedical Journal 46:48−59

Kumazawa A, Diao Y, Hirata A, Hirayama H. 2020. Reduction of human interaction with wireless power transfer system using shielded loop coil. Electronics 9:953

Rhee J, Shin Y, Woo S, Lee C, Kim D, et al. 2021. Wireless torque and power transfer using multiple coils with LCC-S topology for implantable medical drug pump. Sensors 21:8150

Özüpak Y. 2024. Analysis and experimental verification of efficiency parameters affecting inductively coupled wireless power transfer systems. Heliyon 10:e27420

Detka K, Górecki K. 2022. Wireless power transfer—a review. Energies 15:7236

Shidujaman M, Samani H, Arif M. 2014. Wireless power transmission trends. 2014 International Conference on Informatics, Electronics & Vision (ICIEV), Dhaka, Bangladesh, 23−24 May, 2014. USA: IEEE. pp. 1−6 . doi: 10.1109/ICIEV.2014.6850770

Fusco F, Castrillo VU, Giannetta HMR, Albano M, Cavallini E. 2024. Methods, standards and components for wireless communications and power transfer aimed at intra-vehicular applications of launchers. Aerospace 11:132