A muscle activity training facility includes a monitor (12) coupling to a processor (11) and having a screen (15) which includes two areas (16, 17), and two figures (18, 19) in one of the areas (16) for indicating the standard operations of the muscles in front and rear portions of the user, and two further figures (20, 21) in the other area (17) for indicating the muscles in the front and the rear portions of the user, a carrier (30) is attached to a lower body (80) of the user, and a number of electrodes (40-49) are attached to the carrier (30) and coupled to the processor (11) for detecting and showing the detected activities of the muscles of the user in the other figures (20, 21) in the other area (17) of the screen (15).

A monitoring device (1) worn by a user comprising a heart rate sensor (3) for delivering a sensor cardiovascular (CV) signal, a signal processing device (5) for correcting artifacts due to user's motion in said sensor CV signal, and a motion sensor (4) delivering a motion reference signal; the motion sensor (4) having a main function for determining and outputting a signal representing the level of activity of the user, and an auxiliary function for controlling said signal processing device (5). The monitoring device may be disposed in a headband (2) worn on the user's head. The monitoring device may comprise the monitoring of other physiological signals such as SPO₂.

An apparatus for use in connection with biosignal measurement from the skin of a living object, comprising means for applying (352, 354, 356) a test input impedance to the biosignal measurement, means for determining (350) a response of a biosignal characteristics to the test input impedance, and means for setting (352, 354, 356) a usage input impedance on the basis of the response.

Die vorliegende Erfindung bezieht sich auf eine Vorrichtung zum Bewegungstraining von Lebewesen mit einem Koppelelement (8), dessen eines Ende mit dem Lebewesen verbindbar und dessen anderes Ende mit einer Verstellvorrichtung verbunden ist, durch dessen Betätigung die effektive Länge (L) des Koppelelements verstellbar ist.

Um ein zu trainierendes Lebewesen oder Teile des Lebewesens nicht höher als mit einem zuvor festgelegten maximalen Belastungswert zu belasten, wird vorgeschlagen, die Verstellvorrichtung mit einem von einer elektronischen Steuerung (16) leistungsgeregelten Elektromotor (14) zu verbinden und über die Steuerung und zumindest einen Lastsensor (22) die aktuelle Belastung des Koppelelements über die Einstellung des Elektromotors auf einen von der Steuerung ermittelten Soll-Leistungswert zu begrenzen.

Structural systems and method are employed including a multiplicity of computers to control the acquisition and enhancement of skilled performance or behavior. Pre-processing computers (8 and 24) each accept signals from any corresponding one of a variety of physiological or other signal transducers either in close proximity to the computer or transmitted to the computer via a telemetering system. The pre-processing computer calculates a number of different measures of this signal and makes the results known to one or more other computers. These other or auxiliary computers control presentation of a display of the data for a human observer, and perform additional calculations which determine if the processed data is within a predetermined range. This range may be a function of time and/or other variables. A measure of the error between the allowed range and the processed data is computed within these auxiliary computers. These results may be used to alter the display. They are also returned to the pre-processing computer where they may alter the pre-processing calculations. Alteration of the display and the pre-processing calculations are adapted to improve skilled performance and behavior without the intervention of a human operator other than the user.