Recent Innovations in Wireless Network Security (e-ISSN: 3048-8354)

Security of lives and properties remains a trending issue of optimal concern in the recent times. It is one of the major issues posing challenges to governments, establishments and individuals. Common security techniques such as the use of keys, passwords and cards are used in home environments and hotels for traditional authentication. The main aim of the work is to process the real time data acquisition under security control and monitor for secured area gate control. In industries/ secured areas many times gate open close processes goes on, therefore it is essential to monitor all the processes and control the factors affecting them. Adapting a technology like IoT (Internet of things) one can achieve the above-mentioned objective effectively, and thus record and control is clear than manually done. The device consists of a ESP32 WI-FI (wireless Fidelity) module microcontroller, solenoid, boost converter, servo motor, power supply which are all covered with an enclosure box. The system monitors the door open/ closes and Information about the door condition is recorded via the internet server. The monitoring process of the door can be monitored anywhere and anytime. The durability of the system was tested through this system development.

Aii, N. C. (2002). Broadband CSV, XML Alarm data Standards. NZ, Auckland.

Akhtar, L. P. (2017): IoT based Autonomous Office Alarm and Access Control System, Master’s Thesis, Technical University of Denmark; www2.imm. dtu.dk/pubdb/ views /edoc_download. php/7034/pdf/imm7034.pdf

Aru, O. and G. Ihekwe. (2013). Facial Verification Technology for Use in ATM Transactions. American Journal of Engineering Research (AJER), 2(5): 188-193

Burak, S; K. Tolga; and K. Huseyin. (2015). Real Time Smart Door System for Home Security. International Journal of Scientific Research in Information Systems and Engineering (IJSRISE), 1(2):1-6.

Djupsjo, K. and M. Almosawi. (2018). IoT Security Applied on a Smart Door Lock Application. Unpublished M.Sc Thesis, KTH,tockholm;www. divaportal.org/ smash /get/diva2:1216681/FULLTEXT01.pdf

Falohun, A. S; E.O. Omidiora; O.A. Fakolujo; O, A. Afolabi; A.O. Oke and F.A. Ajala. (2012). Development of a biometrically-controlled door system (using iris), with power backup. American Journal of Scientific and Industrial Research, 3 (4): 203-207.

Fredrick, R. (2014). Authentication System for Smart Homes Based on ARM7TDMI-S and IRIS-Fingerprint Recognition Technologies. International Journal of Programmable Device Circuits and Systems, 6(6): 64-69.

Grant Ho, Derek Leung, Pratyush Mishra, Ashkan Hosseini, Dawn Song, and David Wagner. Smart locks: Lessons for securing commodity internet of things devices. Master’s thesis, University of California, Berkeley

Hitachi, R. (2004). Door-access-control System Based on Finger-vein Authentication. Hitachi Review 53(2):79-82.

Jain, A.K; A. Flynn and A. A. Ross. (2007). Handbook of Biometrics, Springer, Netherlands.

KeweiSha, Ranadheer Errabelly, Wei Wei, T Andrew Yang, and Zhiwei Wang. Edgesec: Design of project IOT based secured gate access control system (ICFEC), 2017 IEEE 1st International Conference on, pages 81–88. IEEE,

M. S. H. Khiyal, A. Khan, and E. Shehzadi, " Design of project IOT based secured gate access control Appliances and Security," Issues in Informing Science and Information Technology, vol. 6, pp. 887-894, 2009.