Research and Reviews: Advancement in Robotics

This paper utilizes thorough open air vehicle confinement and acknowledgment philosophies. The proposed on-board vehicle handset framework (VTD) sensor would be executed without the requirement for new partsto be introduced in each parking garage. A two- overlap detecting method is utilized to accomplish dependable vehicle distinguishing proof and leaving inhabitance control. It's a mix of a movement finder and a worldwide security framework. Subsequently, power request is diminished, and the VTD has a force saving plan that utilizes just 20 watts at 3 volts. Clever vehicular specially appointed organizations are being coordinated. Detecting techniques for the route satellite framework (GNSS).

Bura, H., Lin, N., Kumar, N., Malekar, S., Nagaraj, S., & Liu, K. (2018, July). An edge based smart parking solution using camera networks and deep learning. In 2018 IEEE International Conference on Cognitive Computing (ICCC) (pp. 17-24). IEEE.

Wu, Q., Huang, C., Wang, S. Y., Chiu, W. C., & Chen, T. (2007, July). Robust parking space detection considering inter-space correlation. In 2007 IEEE International Conference on Multimedia and Expo (pp. 659-662). IEEE.

Kanan, R., Sweleh, A., & Elhassan, O. (2019, November). A self-powered and wireless parking sensor with Lux-RSS correlation for extra accuracy. In 2019 International Conference on Electrical and Computing Technologies and Applications (ICECTA) (pp. 1-5). IEEE.

Cai, B. Y., Alvarez, R., Sit, M., Duarte, F., & Ratti, C. (2019). Deep learning-based video system for accurate and real-time parking measurement. IEEE Internet of Things Journal, 6(5), 7693-7701.

Priya, R., Abhishek, A., & Utsav, A. (2021, July). A unique automatic parking system by using RFID card and IoT. In 2021 6th International Conference on Communication and Electronics Systems (ICCES) (pp. 519-523). IEEE.

S. Mitja. System for obtaining and displaying real time information on a vacant parking space.

Menon, K. D., Raj Jain, A., & Kumar Pareek, D. (2019). Quantitative analysis of student data mining.

Pai H, A., HS, S., Soman, S., Pareek, D., & Kumar, P. (2019). Analysis of causes and effects of longer lead time in software process using FMEA SSRN: https://ssrn.com/abstract=3508574 or

http://dx.doi.org/10.2139/ssrn.3508574

Pai H, Aditya and H S, Sameena and Soman, Sandhya and Pareek, Dr. Piyush Kumar, ROC Structure Analysis of Lean Software Development in SME’s Using Mathematical CHAID Model (May 17, 2019).

Pai H, A., HS, S., Soman, S., Pareek, D., & Kumar, P. (2019). ROC Structure Analysis of Lean Software Development in SME’s Using Mathematical CHAID Model.