On July 21, the International Union for Conservation of Nature announced the extinction of the Chinese paddlefish and the functional extinction of the Yangtze sturgeon in the wild. China is strengthening ecological restoration through the “Ten-Year Fishing Ban” and the Yangtze River Protection Law. The smart fishery administration system, utilizing radar and electro-optical technology, enables round-the-clock monitoring, providing technological support for fishing ban enforcement and contributing to the conservation of biodiversity in the Yangtze River.

Introduction to UAV Detection Radar Manufacturer: The radar achieves detection and positioning by transmitting and receiving electromagnetic waves. It operates across a wide frequency band, with core performance indicators including antenna feedline performance, signal forms, and data processing capabilities. It plays a critical role in aviation monitoring and remote sensing mapping.

This article is presented by a professional manufacturer of drone detection radar, offering a systematic analysis of the functional features and application scenarios of various radar types. It covers guidance, measurement, meteorological, and air traffic control radars, among others, detailing their specific uses in military, scientific research, and civil fields to help you gain a comprehensive understanding of radar technology.

Lakeda, a manufacturer of drone detection radars, points out that radar, as a critical electromagnetic sensor, detects target distance, speed, and方位 by transmitting and receiving electromagnetic waves. It is capable of operating in all weather conditions and resisting harsh environments. Since its application in World War II, radar technology has continued to evolve, with a wide range of frequency bands, and has been extensively used in military, socio-economic, and scientific research fields.

This article introduces various classification methods of radar systems, including by function, signal type, measurement parameters, etc., and provides a detailed overview of the technical characteristics and application scenarios of different types of radars, offering reference for the selection and industry application of drone detection radars.

The integration of drone-mounted radar technology brings three major innovative applications: breaking through low-altitude detection limitations, enabling flexible radar testing and validation, and establishing a collaborative communication relay platform. This significantly expands the detection range and enhances system performance, offering new solutions for the radar industry.

The manufacturer of drone detection radar, Lakeda, analyzes the development trends of radar detection and countermeasure technologies, highlighting that multi-band integration and a combination of soft and hard kill capabilities are key for the future. The system offers four core advantages: cost-effectiveness, reliability and security, ease of maintenance, and rapid response, making it suitable for a wide range of security applications.

This article analyzes drone detection radar systems and solutions, discussing the challenges faced by detection technologies such as radar, electro-optics, and acoustics, including low RCS, weak infrared signatures, and complex environmental interference. It also highlights that multi-technology collaboration is a key direction for enhancing detection efficiency.

Drone Detection Radar (LiDAR) efficiently achieves three-dimensional mapping by emitting laser pulses and precisely measuring the reflection time. It is widely applied across eight major fields, including accident forensics, agriculture and forestry, power inspections, topographic surveying, and archaeological excavations, significantly enhancing data accuracy and operational efficiency.