KC Technology Limited
KC Technology Limited develops 60GHz radar sensing device with 5G base stations to classify vehicles movement, pedestrian count in a designated area. Traffic control can be optimized by 5G low latency network plus radar monitoring data.
Traffic congestion is one of the global urban issues, improvements are hardly deployed since the collection of instant data, sensing device technology, size of data packets and transfer speed are the major barriers to conducting the next step of data analytics. There are a lot of smart traffic planning solutions in software-based which claims to improve congestions, but most of them are without a realistic historical big data review since it is impossible to conduct data collection by using a lot of time and labors.
The market is thirsty for solution providers that are capable to provide high-speed accurate data monitoring, a smart algorithm to classify vehicles' density and pedestrians' counting, and based on this accurate sensing hardware to summarize an improvement plan via AI and big data.
In light of sensing devices (apart from cameras), the radar should be the most powerful, accurate, and wider range coverage solutions which are capable to manipulate no matter day or night time. However, radar monitoring requires high-speed detection in parallel so that multiple data packets can be transmitted via IoT/GSM network.
Smart traffic control includes smart radar-based crowd detection in order to change traffic light signals on demand, this requires instant data feedback, current 5G network is capable to handle this instant feedback. However, the current radar sensing solution is only limited to smart monitoring with high latency which is not suitable for instant smart actions.
We have fruitful experience in handling radar monitoring algorithms including people counting, social distancing, proximity, and even occupancy, via various IoT and GSM network frequencies in order to comply with local 5G networks in a timely manner. By improving our radar sensing algorithm and newly build 5G printed circuit boards, a new 5G based radar monitoring device that is fully compatible with the UK 5G network will then be developed in an efficient manner.
We developed camera-less solutions to avoid social privacy concerns, and yet this is also a global concern in deploying any camera-based monitoring solution. The cultural variations, which we defined as frequency bandwidth and IoT license and regulations, can be adjusted according to country rules and regulations. Since we develop this newly build technology in the UK, we should not have any political, import, and export concerns.