각도 전용 센서, 바이스태틱 센서, 도달 시간 센서로 추적
다음 예제에서는 거리 전용 센서, 각도 전용 센서, 도달 시간 센서와 같이 관측 가능성이 제한적인 센서를 사용하여 표적을 추적합니다.
추천 예제
Tracking Using Bistatic Range Detections
Simulate bistatic range-only detections using four sensor-emitter pairs. In addition, this example demonstrates how to localize and track multiple targets using bistatic range-only measurements.
Object Tracking Using Time Difference of Arrival (TDOA)
Track objects using time difference of arrival (TDOA). This example introduces the challenges of localization with TDOA measurements as well as algorithms and techniques that can be used for tracking single and multiple objects with TDOA techniques.
- R2022a 이후
- 라이브 스크립트 열기
Vehicle Tracking for Urban Air Mobility Using 5G Position Reference Signal
Use 5G signals to track unmanned aerial vehicles (UAVs) for urban air mobility applications. This example considers that the ground stations are equipped with 5G devices to track the UAVs carrying 5G devices. You can simulate 5G signals in this environment and use them to estimate the time of arrival (TOA) of the signals at each UAV. Furthermore, you can use a multi-object tracking algorithm to process the TOA estimates to localize and track the UAVs.
- R2023b 이후
- 라이브 스크립트 열기
Asynchronous Angle-only Tracking with GM-PHD Tracker
Track objects using angle-only measurements from spatially distributed and asynchronous passive sensors.
- R2022b 이후
- 라이브 스크립트 열기
Angle-Only Tracking with Passive Scanning Sensors
Track multiple targets and create a maritime situational picture with passive sensors. Passive sensors are sensors that do not emit any energy towards their target and rely solely on emissions from the targets for detection. Therefore, passive sensors cannot provide a full position measurement of the detected target. In this example, the passive sensors you use are infrared sensors that scan the region of interest and provide angle-only detections of the targets.
- R2023b 이후
- 라이브 스크립트 열기
Tracking Using Distributed Synchronous Passive Sensors
Illustrates the tracking of objects using measurements from spatially-distributed and synchronous passive sensors. In the Passive Ranging Using a Single Maneuvering Sensor, you learned that passive measurements provide incomplete observability of a target's state and how a single sensor can be maneuvered to gain range information. Alternatively, multiple stationary sensors can also be used to gain observability. In this example, you will learn how to track multiple objects by fusing multiple detections from passive synchronous sensors.
802.11az Three-Dimensional Tracking Using Time of Arrival Estimation
Use an IEEE 802.11az Wi-Fi network to track Wi-Fi devices in a three-dimensional space using time of arrival (TOA) estimation.
- R2024b 이후
- 라이브 스크립트 열기
Source Localization and Tracking with Passive Receivers
A passive source localization (PSL) sensor network consists of spatially distributed passive sensors to detect, localize, and track target emitters. The passive sensors are non-transmitting receivers and hence are covert and low-cost. These benefits make PSL sensor networks attractive in many applications, such as air surveillance, acoustic source localization, etc. This example shows how to localize and track targets in a PSL sensor network.
- R2024b 이후
- 라이브 스크립트 열기
MATLAB 명령
다음 MATLAB 명령에 해당하는 링크를 클릭했습니다.
명령을 실행하려면 MATLAB 명령 창에 입력하십시오. 웹 브라우저는 MATLAB 명령을 지원하지 않습니다.
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