In the vehicle warehouse, stored products are mass customized vehicles with wheels which means they move frequently and haphazardly during operations. In this study, we combined different technologies such as RFID, GPS and power sensors to consider EV administration in a holistic manner, thereby providing intervention in an infrastructurally deficient setting.ĭynamic location information of the product in warehouse is vital for many processes such as order picking and stock taking. Whereas previous studies either considered tracking of vehicle position or power without personnel, others tracked personnel with less emphasis on the vehicle position or energy. Tests revealed that the EV system administrator operated through a personal computer was able to track the EV driver, position and power through a web interface/Google Maps and e-mail in real time. Personnel tracking was achieved using an RFID-enabled staff identity card that authenticates authorized drivers before activating the vehicle ignition system, position tracking was achieved using a geographical positioning system (GPS), and current and voltage sensors were used for tracking of electric vehicle power. This research is geared towards supporting this initiative by developing an EV tracking system that combines tracking of EV drivers with vehicle position and battery power (energy) tracking in order to mitigate the challenges outlined above. In its drive to reduce its carbon footprint, Elizade University, Nigeria, is embarking on the development and use of electric vehicles (EV) as a means of transportation within the university campus. ![]() These include driver scheduling, which, in many cases, is still being done manually diversion of vehicles to unauthorized routes by drivers for selfish reasons results in illegal use of fuel meant for official duties, causing the organization lose considerable revenue. ![]() The challenges faced by managers of transportation systems in developing nations such as Nigeria are numerous. LCD screen display is used to display the data while the buzzer sound will go off if the valid data is read. ![]() The reader acts like a decoder where the encoded data in the tag’s integrated circuit is decoded for processing computer host. The received data is collected by the Arduino microcontroller in order to compare with valid data that acts as a reader. The data from the sticker tag is then sent to Arduino board, which is basically used as a Microcontroller based board. The RFID reader wirelessly communicates with the sticker tag to identify the code where each tag has its own identification number or code. Therefore, this study proposes simple design for tracking identifications using well known components like Arduino Uno that used IC Atmega 328p, sticker tag as an RFID tag and RFID ID-20LA. ![]() The RFID technology is enabled as the main technology in various applications such as automated, collection of wireless data and contactless. Radio-Frequency Identification (RFID) is used to transmit data via radio frequency (RF). The development of security devices has been an important concern for everyone as most devices’ usage are limited at certain places that require verification.
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