Laterometer

A laterometer is a device that is used to measure the angular position of a body in space. It consists of two main parts: a sensor and a data processing unit. A sensor is a device that measures the angle of rotation of a body relative to a given axis. The processing unit receives data from the sensor and converts it into rotation angle values ​​in degrees.

The laterometer is widely used in various fields such as medicine, ergonomics, sports and others. It allows you to determine the optimal body position when performing various exercises, as well as identify postural disorders and diseases of the musculoskeletal system. In addition, the laterometer can be used to evaluate the effectiveness of training and rehabilitation after injuries.

There are several types of laterometer, each of which has its own characteristics and advantages. For example, a mechanical laterometer is based on the use of mechanical sensors that measure the movement of a joint or the body as a whole. An electromagnetic laterometer uses electromagnetic fields to measure body position. There are also laser and optical laterometers, which use special sensors to measure the angle of rotation.

Overall, the laterometer is an important tool for the diagnosis and treatment of various musculoskeletal diseases, as well as for optimizing training and rehabilitation. It provides accurate data on body position and rotation angles, which can help improve health and exercise performance.

Laterometer - a device for measuring the angle of rotation of the head

A laterometer is a special device that is used to measure head rotation. It allows you to determine the direction of gaze and movement in space. Laterometric measurements can be used to diagnose balance disorders, as well as to assess the coordination of movements and spatial orientation of a person.

**The principle of operation of the laterometer** is to register changes in the patient’s posture using sensors and subsequent processing of the received information using software. To create a stable image, continuous tracking of the patient's head movements in multiple planes is necessary. The measurement results are displayed on the screen in the form of a graphic diagram.

There are various models of laterometers on the market, varying in cost and functionality. For example, some models allow you to measure the rotation angle in the vertical and horizontal plane, while others can measure in a three-dimensional coordinate system. There are also non-contact sensing systems that do not require direct contact with the patient.