Landmines are frequently used for defence and attack. Thus, landmine detection is vital to preventing the damages incurred. Various landmine detection methods have been developed from the past to the present. Thus, a need has arisen for the employment of qualified personnel in this field. In today’s landmine detection training, soldiers are first subjected to theoretical training about landmine types. After this stage, they attend practical training in the field. However, when training is given in this way, sample application fields do not contain all possible terrain and weather conditions. Also, many accidents and injuries occur during this practical training. To overcome the disadvantages elucidated above, a landmine detection training simulation was developed in this study, which supports real terrain conditions and creates a safe detection environment. In this study, the developed simulation software was based on virtual reality technology. The interaction with the computer is both provided by a detector appearance control device (DACD) controller developed for this simulator and by Kinect controller. The simulator has remarkable benefits concerning time and cost when compared with the landmine detection training given today. At the same time, detections performed in a safe environment without any risk factors and real land conditions were provided close to reality. Also, the actual space coordinates of the joints in the human body can be detected correctly using the DACD controller, as much as the Kinect device.

地雷经常被用于防御和进攻。因此，地雷检测对于防止造成损害至关重要。从过去到现在已经开发出各种地雷检测方法。因此，出现了在该领域雇用合格人员的需求。在当今的地雷探测训练中，士兵首先要接受有关地雷类型的理论训练。在此阶段之后，他们将参加该领域的实践培训。但是，以这种方式进行培训时，示例应用程序字段不会包含所有可能的地形和天气条件。另外，在此实践培训中会发生许多事故和伤害。为了克服上述缺点，本研究开发了一种地雷检测训练模拟，支持真实的地形条件并创建安全的检测环境。在这项研究中，开发的仿真软件基于虚拟现实技术。与计算机的交互作用均由为此模拟器开发的检测器外观控制设备（DACD）控制器和Kinect控制器提供。与今天提供的地雷检测培训相比，该模拟器在时间和成本方面具有显着优势。同时，提供了在没有任何风险因素和真实土地条件的安全环境下进行的接近现实的探测。此外，与Kinect设备一样，使用DACD控制器也可以正确检测人体关节的实际空间坐标。与计算机的交互作用均由为此模拟器开发的检测器外观控制设备（DACD）控制器和Kinect控制器提供。与今天提供的地雷检测培训相比，该模拟器在时间和成本方面具有显着优势。同时，提供了在没有任何风险因素和真实土地条件的安全环境下进行的接近现实的探测。此外，与Kinect设备一样，使用DACD控制器也可以正确检测人体关节的实际空间坐标。与计算机的交互作用均由为此模拟器开发的检测器外观控制设备（DACD）控制器和Kinect控制器提供。与今天提供的地雷检测培训相比，该模拟器在时间和成本方面具有显着优势。同时，提供了在没有任何风险因素和真实土地条件的安全环境下进行的接近现实的探测。此外，与Kinect设备一样，使用DACD控制器也可以正确检测人体关节的实际空间坐标。与今天提供的地雷检测培训相比，该模拟器在时间和成本方面具有显着优势。同时，提供了在没有任何风险因素和真实土地条件的安全环境下进行的接近现实的探测。此外，与Kinect设备一样，使用DACD控制器也可以正确检测人体关节的实际空间坐标。与今天提供的地雷检测培训相比，该模拟器在时间和成本方面具有显着优势。同时，提供了在没有任何风险因素和真实土地条件的安全环境下进行的接近现实的探测。此外，与Kinect设备一样，使用DACD控制器也可以正确检测人体关节的实际空间坐标。