Desight uses microwave radar technology instead of visual analytics reducing data usage and this encourage the use of monitoring technology especially in data limited environment such as rural areas, plantations, etc. to understand, collect and interpret data of vehicle and human behaviours. With its low bandwidth, low power, and edge processing capabilities will help a lot of businesses to collect meaningful data. Over time, with machine learning, we can predict the trend and help businesses to save costs in operation and maintenance.
Desight is a reactive monitoring solution for various industries include retails, plantations, town councils, tourist attractions, highway operators, especially monitoring in remote areas whereby connectivity infrastructure is a challenge.
Desight sensors utilise low data transmission by processing signals efficiently and transmitting only essential information like object position, speed, and movement. Unlike high-bandwidth imaging systems, radar minimizes network load, making it ideal for real-time applications. Their low data rates also make them suitable for use in rural areas like plantations and rural areas like industrial complex and remote villages.
Desight sensors monitor without relying on cameras or images, it analyses an object's cross-sectional area, height, and speed. They provide precise, all-weather detection using radio waves rather than light, allowing them to track objects in haze, smoke, or rain and even penetrate certain materials for concealed detection. With non-contact sensing, radar sensors can differentiate multiple objects, ensuring reliable performance in retail, healthcare, and industrial applications.
Power consumption of Desight is <5 watts. This results in sensors to be installed in areas with limited/without power source, reducing carbon footprint of monitoring.
High-security integrity in radar sensors ensures reliable, tamper-resistant, and accurate detection, even in challenging environments. These sensors use advanced signal processing, encryption, and interference mitigation to maintain precision, prevent spoofing, and operate securely in critical applications like defense, surveillance, and autonomous systems. No video image is stored or concerns of video cameras being hacked.
Overall cost savings achieved through efficient design, durability, and minimal maintenance requirements. In radar sensors, there is reduced energy consumption, longer lifespan, fewer repairs, and minimal infrastructure upgrades, leading to long-term financial and operational benefits. Sensors unlike CCTV does not require storage and visual analytics thus reducing recurring licensing subscription.
Sensors adjust, improve, and enhance their performance over time without human intervention. Using AI algorithm, machine learning, and real-time data analysis to adapt to changing conditions, optimize efficiency, and continuously refine for better results.