In the olden days, all the small competitions are conducted and scores are updated as paperwork. It procures human work and it results in human errors. To avoid the situation, a time system was introduced in many events to make it a digital one. A time system comes into the picture to use in a modern wireless communication system. It includes a wireless transceiver, primary clock, second clock, and a digital baseband processing system. The primary clock generation system is used to deliver the low-frequency clock and is used as a reference clock for the digital signal processing system to generate the low-frequency time signals. The second clock generation system provides the high-frequency clock to control the timing of the wireless transceiver’s transmitter. High-definition time signals begin to respond to low-resolution time signals.
Wireless time devices are mostly used to evaluate the location, energy efficiency, and proximity. From the sensor node location preceptive, the exact location will not be known. Hence the time synchronization will be used to find the location and transmit the messages.
Wylas Timing Technology is a fully automated wireless timing system at the forefront of time innovations and is developed by one of the leading Australian Android developers. The Wylas timing technology was founded and developed by William Ferguson and it can be purchased at https://wylas-timing.com/. Their aim is to remove the pressure and stress of the gym referees in calculating the time taken by all the swimmers. This software is mainly used for integrating, record, and visualize the timings taken by the swimmers. With fast assembly and its usability, this timing software is termed as an efficient, fast, and affordable technology. Wylas Timing configures with all event management software to increase the event speed. It is more accurate and avoids all the manual transcription errors. The package will hold watches, a router, and 2 displays. This device can function without the internet option and can run on mobiles or tablets.
It can support 10 lanes at a time and provide the results at an accuracy of 2 milliseconds. It receives all the information from the event software. The recorder will be connected to the device to display the player information, lane, and the time taken to complete the task. It will collect all details and sends them to event management software. When the event is complete, the results will be displayed on the scoreboard.
It does not require any hardware installation and everything is software-centric. The maintenance and up-gradation of the software can be done at no extra cost. The user can purchase additional batteries if required but the primary battery can function for up to 6 hours. It can be used from small events to big events like the Olympics.