DE102014004392A1 - Mobile Spiroergometry, EEG, 4D-EIT with 4D ultrasound, start time interim registration time, swimming running resistance train device, veins arteries Perceiving 4D camera as a unit or individually in the processing processor Bio-Physiological as Megani - Google Patents

Abstract

The units Mobile 1. Spiroergometry, 2. EEG bathing cap (cap), 3. 4D-EIT 4D ultrasound, 4. Time interval time registration system, 5. Floating running resistance train device and 6. Mobile veins, arteries perceiving Digital HD (4D ) cameras; Characterized; The Mobile 1. Spiroergometry of an Anatomic Face (Main) Shaped (Fig. 3.9.) 7 Mask, (Fig. 6 to 12.28.30) 8 Snorkel Mask is equipped in a streamlined shape and the 20 snorkel-touch by 25 touch-water perception sensor (Infrared sensor) 24 infrared valves the automatic 28 butterfly valve (closure) is waterproof and attached to 7th mask or 8th snorkel mask fixed or detachable (Fig. 13 to 18) 9. Sports goggles associated with 12.13 2 integrated internal and external HD color cameras with (Fig. 1 to 8) 30 bath cap (cap) for the measurement of (Fig. 20) EEG and the (Fig. 3-9.) 7 mask and (Fig. 6 to 12.28.30) 8 snorkel Mask is suitable for 1. Mobile Spiroergometry with a (Fig. 14.15.16) 109 signal processing process in conjunction with (Fig. 23 to 31) 36 Special Waterproof Mobile Elastic 143 4D-EIT and 134 4D Ultrasonic Band Attachment to the Skin of Thorax used. And this creates air, water-tight space so that no water and air pockets between chest (thorax) and 364 Elastic Mobile 143 4D-EIT with 134 4D ultrasound band attachment arise whereby the 39-electrode arrangement for making an electrical contact with skin may arise. The measurement current, which is then introduced via 38 electrodes, generates a potential distribution in the chest thorax, which is measured via the 40 electrodes and so that the result of (Fig. 31) Mobile 143 4D-EIT 134 4D ultrasound is transmitted via (Fig Processing processor Intermediate registration End time System the (Fig. 38.39.46) Start time Response time Perception registered by medium (Fig. 39) 41 Starting block 46.47 Pressure plate and 45.50.53.54. 55.56.71.73.74. 75.76.82 Sensors on the (Fig. 38.40.80.81) 42 Shaft Killer or Placed Differently (Fig. 54) 124.125.126 webs and one (Fig. 44) 52 stop mat (end time) and with one (Fig. 60 to 71) 5. Floating running resistance Train by means of a (Fig. 60 to with 66) 61 Spring band steel torque or (Fig. 62.67.68) 62 Electronic constant winches by means of one (Fig. 67) 60 force resistance train control to 100th of Secondaries send resistance or train forces (Fig. 31.73.74) 65a.b. Belt belt (Fig. 69) 67 carrying belt (body belt) living beings in the movement process all values so that all given by 1. Mobile spiroergometry, 2. EEG swim cap (cap) 3. 4D-EIT electrical impedance tomography with 4D ultrasound 4. Time. ..

Description

• 1. Da zurzeit keine Einheit im Mobile Spiroergometrie, 2. Mobile EEG Badekappe (Kappe) 3. Mobile 4D-EIT mit Ultraschall, 4. Mobile Zeit-Zwischenzeitregistration System und 5. Mobile Schwimm-Laufwiederstand-Zug gerät als 6. Venen Arterien Wahrnehmende Kameras Ausstattung ist, die eine Signalübertragung im und Unterwasser zulasst wobei Lebewesen in der Bewegungsablaufen via eine Verarbeitungsprozessor die Bio-Physiologische als Meganische Werten Ergebnissen übertragt auf eine Drahtlose Unterwasserkommunikation mit Hochfrequenzbereich die für das Medium Land und Wasser für Sport Medizinische wissenschaftliche Untersuchungen Geigend ist. Würde gesucht nach einer Drahtlose Unterwasserkommunikation mit Hochfrequenzbereit die Patentiert ist und nummer DE 10044322 A1 Durch der Firma Dynamit Nobel GmbH Explosivstoff und Systemtechnik 53840 Troisdorf DE. Und diese gebraucht kann werden für die Einheiten als auch individuelle Unterstützung.

The invention therefore relates to the mobile units; 1. Spiroergometry, 2. EEG bathing cap (cap), 3. 4D-EIT with 4D ultrasound, 4. Time interval time registration end time system, 5. Floating-train with 6. Vein arteries Perceiving cameras, as a unit or individually processes 111 Wearable Underwater Communication with High Frequency Range 53 Wearable Sensor 54 Flexible Tensile Centennials and a 102nd Computerized Base Station with 142 Flexible Stretching Receive Antenna Launches for Sports Medical scientific examinations is violent.

• 1. As there is currently no unit in Mobile Spiroergometry, 2. Mobile EEG swimming cap (cap) 3. Mobile 4D EIT with ultrasound, 4. Mobile Time Intermediate Registration System and 5. Mobile Floating Device Train as 6th Vein Arteries Perceiving Cameras equipment is that allows signal transmission in and underwater while living beings in motion via a processing processor transmits the Bio-Physiological as Meganic values results to a wireless underwater communication with high frequency range which is violent for the medium country and water for sport medical scientific examinations. Would be looking for a wireless underwater communication with high frequency ready which is patented and number DE 10044322 A1 By the company Dynamit Nobel GmbH explosive and system technology 53840 Troisdorf DE. And these can be used for the units as well as individual support.

Further investigation would be made on the feasibility of these units 1. Spiroergometry, 2. EEG bathing cap (cap), 3. 4D-EIT with electrical impedance tomography and 4D ultrasound, 4. Time interval time registrations, end time system, 5. Float running train To complete and design with a new development of a Mobile Unit 1. Spiroergometry, 2. EEG bathing cap (cap), 3. 4D-EIT with 4D ultrasound, 4. Time interval time registrations End time, 5. Floating running resistance pull with a 109 Processing processor wherein a 17 SD / SDHC memory card with 16 UBS 3.0 and with 111 wireless underwater communication 53 wireless sensor as 54 flexible stretcher antenna it and underwater more then 100 meters deep and can be observed on land or inner space of a living being. It is important to construct a 112 hardware with specified character "data" characterized by a 113 soft true program; Time and Date, Names, Age, Street, Residence, Country, Age, Sport, Occupation, Scientific, Water and Humidity Air Temperature, Body Thermometer, Wind Emotivity, Heart Rate Monitor, Sphygmomanometer, Calorie Meter, Distance Meter, Speedometer, Timepiece, Intermediate Time Measurement, Finish Time, pacing rate, heart rate, beating frequency, EEG, ECG, breathing gas measurements, circulatory measurement, humidity and metabolism, as well as cardiopulmonary performance is qualitatively and quantitatively enabled, and the course of veins and arteries with perceptual cameras transmitted to the blood circulation system on perceptual image, and 1. Mobile ergo-spiroergometry system, 2. Mobile EEG swimming cap (cap) 3. Mobile 4D-EIT ultrasound system, 4. Mobile time interval time registration system, 5. Mobile swimming-resistance train device with 6. Vein arteries perceptive To couple cameras from each other and to each other and through e Ine 109 processing processor in which a 17 SD / SDHC memory card with 16 UBS 3.0 and with 110 signal transmissions Wireless antenna 54 Flexible stretcher Zentantenne and still a 102nd Computerized base station is registered and stored on file and stored on an internal 16 UBS 3.0 or 115 stick, 114 laptops can be downloaded.

The units Mobile 1 Ergo-Spiroergometry for this purpose a new (Fig. 5.9) 7 mask, (Fig. 6.7.8.10.11.12.28.31) 8 snorkel mask with (Fig. 13 to 18) 9 Sports goggles / swimming goggles undergoing development is characterized (Fig. 6.7.8.10.11.12.28.31) 20 Snorkel Ruhr is seated with 25 touch-water perception sensor (infrared sensor) whereby one of the 24 infrared valves is fitted with the automatic shut-off valve (closure part) (Fig. 6.7.8.10.11.12.28.31) 8 Snorkel mask with living creature in the course of movement before which the water surface would break (touch) and underwater closes Closes the 28 butterfly valve (closure part on the 20 snorkel dysentery causing no drops of water in the (Fig. 6.7.8.10.11.12.28.31) 20 snorkel dysentery (Fig. 6.7.8.10.11.12.28.31) 8 snorkel mask can arise so that a 110 signal transmission to him and underwater to m country, "and so" no water in (Fig. 6.7.8.10.11.12.28.31) 20 Snorkel Stroke in the Course Floating Start Jump Underwater Chamfering and Turning Points in living beings in the movement sequence comes. As the snorkel of ergo-spiroergometry nowadays developed no bill is kept with streamlined form development of snorkel and mask for in and underwater and land use. As a result, many athletes encounter too much resistance in this, which has brought the movement through life both in the water is lower than on land. (So then is the question of whether existing values of ergo-spiroergometry are now apparent in these processing processes of biophysiological as Meganic are correct.) As living beings continue to have no opportunities in the water has a jump start, underwater bevel with turn well nowadays Ergo- Spiroergometry linked to a cable is from snorkel to a suitable computer and the doctor (accompanying person) with the float and cable with computer equipment had to run in the middle. Further, the snorkel is not watertight, creating water in the snorkel tube while living beings would make a start jump with underwater barrel or turn. This would drastically change electrical value characteristics with cable-linked ergo-spiroergometry. So we can in the new development of (Fig. 5.9) 7 mask and 8 snorkel mask all water sports as water polo, Synchronschwimmers, dives, apnea or divers with the 1 Mobile water Spiroergometrie test "undisturbed" him and underwater transmitted by medium, the Invention characterized in that all values measured from a 1 ergo-spiroergometry new 7th mask, (Fig. 6.7.8.10.11.12.28.31) 8 snorkel mask with (Fig. 13 to 18) 9 goggles in streamlined shape for 109 Processor processor in which a 17 SD / SDHC memory card with 16 UBS 3.0 and 111 wireless underwater communication 53 wireless sensor 54 Flexible stretcher antenna as well as a 102 computer based base station with 142 Flexible stretching receiver antenna registered and stored on suitable hardware file so that continues on an internal 16 UBS 3.0 or 115 stick, 114 laptop can be downloaded.

According to a further embodiment of an inventive device, it is necessary that one of the (Fig. 5.9) 7 mask and (Fig. 6.7.8.10.11.12.28.31) 8 snorkel mask with an optimal streamlined shape and up there a removable (Fig. 13.14. 15) 9 sports goggles / swimming goggles with 12 2 inside and 13 2 exterior integrated processing HD color cameras, (Fig. 17) 21 microphone and (Fig. 18) 22 hearing aids and of author entry A63B 33/00 sports glasses and mask with integrated inner and Save MD color cameras, microphone and hearing system to a wireless top and underwater communication with MP3speiler under file reference 2014 000 402.1. is registered by actor. The invention is characterized by the fact that it works (Fig. 71) 33.ab Flexible electronic cable that has a stretching effect in the (Fig. 72) 11.23 Elastic band of (Fig. 13.14.15) 9 Sports glasses, (Fig. 5.9) 7 Mask and (Fig. 6.7.8.10.11.12.28.31) 8 Snorkel mask so that all electrical currents go in a stretching motion. So that the connection can be made with each other by the (Fig. 71) 33.ab flexible electronic cable in the (Fig. 13.14.15) 9 Sportbrill, (Fig. 5.9) 7 mask and (Fig. 6.7.8.10.11.12.28.31 ) 8 Snorkel mask can be processed and thus a simple waterproof Electronic closure in (Fig. 6.7.8.10.11.12.28.31) 20 snorkel-stirring acts. So no splash of water in the system of control of the snorkel mask can come and the freedom of movement is not impaired and values of (Fig. 31) 1 Mobile Spiroergometry electrical properties Free of interference occur. Thus, living things can be regenerated by means of the new invention (Fig. 31) 1 Mobile Spiroergometry with (Fig. 5.9) 7 Mask (Fig. 6.7.8.10.11.12.28.31) 8 Snorkel mask Starting jumps, underwater chamfering and turning over and under water Run and the registered data to the computer run smoothly. Furthermore, all other sports can profit from the optimal new (Fig. 5.9) 7 Mask with up and Removable mounted (Fig.13.14.15) 9 sports glasses with (Fig. 31.) 1 Streamlined aerodynamic Ergo Spirometry also for Land sports are suitable.

• 2. Einer Weitere Erfindung für die Einheiten 1. Mobile Spiroergometrie, 3. Mobile 4D-EIT mit Ultraschal, 4. Mobile Zwischenzeitregistration 5. Mobile Schwimm-Laufwiederstand-Zug gerät mit 6. Venen Arterien Wahrnehmende Kameras, ist Dadurch gekennzeichnet das 2. Mobile EEG Badekappe mit einer (Abb. 1.48.39.31) 45.48 Wahrnehmung/Drucksensor (Gedächtnissensor Badehaube, Kappe) und ausgerüstet wird mit einer intrigierte (Abb. 2.20) 31 flexibel dehnenden EEG-Elektroden-Array dieser die über Einstimmung hat mit der (flexibel EEG-Elektroden-Array von der Board of Trustees of the University of Illinois, Akteurs John A. Rogger, Kim Dae-Hyeong, Brain Litt, Jonathan Viventi, Titel ist; Conformable actively Multiplexed High-Density Serface electrode array for brain interving Patent Registrationsnummer WO 2012/167096 A2 WO 2012/167096 A3 US20130072775 A1 ) Doch suchte wir nach einer Neue Erfindung für Dehnbahre Flexible Ausstattung der 2. EEG in einer (Abb. 2.3.4.31) 30 Badekappe (Kappe) und gleichzeitig Verarbeitet ist mit einem (Abb. 63–64) 33.a.b Flexiblen Elektronischen Kabel und Stromerzeugt wird durch (Abb. 19) 32 Flexible dehnbare Akku-Batterien in einer Elastisches Trägermaterial integrierte ist. So ist einer dehnende Wirkung im dem dafür 31 flexibel EEG-Elektroden-Array 2. EEG Badekappe (Kappe) entstanden zum (Abb. 31) 110 Signalvorarbeiterprozessor Aufnahme neuronaler Aktivität von der Oberfläche der Großhirnrinde 35iqnt 42 Flexible Elektroden-Array Ruft Inside in Ihre Gehirn mit durchdringenden zu bedienen entwickelt Elektroden. Das 10 mm × 9 mm Gerät besteht aus Silizium-Nanomembran 720 Transistoren in einem 360-Kanal-Arrays. Ein wesentlicher Vorteil der klappbaren Anordnung ist, dass es in Bereichen, die physisch unzugänglich herkömmlichen starren Elektrodenanordnungen wie etwa in Furchen, Spalten oder zwischen den kortikalen Hemisphären eingesetzt werden. Die neue Vorrichtung erlaubt auch eine hohe räumliche und zeitliche Auflösung unter Verwendung einer minimalen Anzahl von Drähten und kann leicht zur klinischen Größen (80 mm × 80 mm) skaliert werden. Eine werter Erfindung in diese ist den (Abb. 20) 31.33.a.b Flexibel EEG-Elektroden-Array mit zusätzliche Erfindung, einer (Abb. 19) 32.33.a.b Dehn- und Implantier bare Minibatterien im (Abb. 2.3) Badekappe (Badehaube, Kappe) zu verarbeiten (Dehn- und Implantier bare Minibatterien (kommt von John Rogers von der University of Illinois in Urbana es ist nicht bekannt ob hier einer Patent aufsteht) diese die wir verändert mit einer neu erfinderische Zusammensetzung aus der (Abb. 70.71) 33 Flexiblen Elektronischen Kabel-(verwenden als 33a. Isolierung dünne Schläuche aus einem elastischen Kunststoff. Die Schläuche werden dann mit einer 33b. flüssiger Legierung aus den Metallen Gallium und Indium gefüllt, die Strom sehr gut leitet. (Kommt von Prof. Dr. Michael Dickey an der North Carolina State University in den USA worauf kein Patent Steht) und somit (Abb. 19) 32 Dehn- und Implantier bare Minibatterien im (Abb. 3) 30 Badekappen (Badehaube, Kappe) und die hiermit er züchte Elektrizität anzuschließen an 1. Mobile Spiroergometrie, 2. Mobile 143 D4-EIT mit 134 D4-Ultraschall, 4. Mobile Zwischenzeitregistration 5. Mobile Schwimm-Laufwiederstand-Zug gerät mit 6. Venen Arterien Wahrnehmende Kameras, sodass alle individuell Prozessen zusammen im (Abb. 31.) 109 Verarbeitungsprozessor zum 111 Drahtlose Unterwasserkommunikation 53 Funksensor 54 Flexible Dehnbare Antennen sowie weiterhin eine (Abb. 67) 102 Computergestützte Basisstation mit 143 Flexible dehnende empfängst Antenne vermittelt.
• 3. Einer Weitere Erfindung für die Einheit 1. Mobile Spiroergometrie, 2. EEG Badekappe 4. Mobile Zwischenzeitregistration 5. Mobile Schwimm-Laufwiederstand-Zug gerät mit 6. Venen Arterien Wahrnehmende Kameras, Umfasst gemäß einer weiteren Ausführungsform eines erfindungsgemäßen ist, ist es notsachlich durch das in der Vergangenheit bei EIT Messung nur möglich was einer Elektrische Impedanztomographie bei Bettlägerige Lebewesen die Lungenvolumen zu messen. Durch die Erweiterung der Erfindung auf 3. EIT Elektrische Impedanztomographie und mit 134 4D-Ultraschall zumachen haben wir die Möglichkeit einer 3. Mobile 143 4D-EIT Elektrische Impedanztomographie mit 134 4D-Ultraschall, in Bewegungsverlauf von Lebewesen zu folgen. Hierdurch können wir die maximale Longen und Herz Kapazität von Lebewesen in bewegungsverlauf folgen messen wobei wir dann die Tiefpunkten und Höhepunkten der Atemrhythmen, Harzfrequenz Kreislauf können werden wahrnehmen auf Monitor und die werten erhalten. Dieses Verfahren ist Völlig Strahlungsfrei.

With the Invention (Fig. 5.9) 7. Mask (Fig. 6.7.8.10.11.12.28.31) 8. Snorkel Mask for (Fig. 31.) 1 Mobile spiroergometry for further medical examination on freediving, divers, water polo, synchronized swimmers, Diving in the sky and other water sports Investigations are possible because the flexible ones are stable (Fig. 6.7.8.10.11.12.28.31) 8 Snorkel mask (Fig. 31.) 1 Mobile spiroergometry in a streamlined shape has no water load during (Fig. 6.7.8.10.11.12.28.31) 8 Underwater snorkel mask comes in certain depths comes from 100 to 200 m and 109 processing processor 111 Wireless underwater communication with radio frequency 53 wireless sensor 54 Flexible stretcher Zentantenne and continue to provide a 102 computer-aided base station with 142 flexible stretcher receiving antennas.

• 2. Another Invention for the Units 1. Mobile Spiroergometry, 3. Mobile 4D-EIT with Ultrasound, 4. Mobile Intermediate Registration 5. Mobile Floating Device Train with 6. Vein Arteries Perceiving Cameras, This is characterized by the 2nd Mobile EEG swimming cap with a (Fig. 1.48.39.31) 45.48 perception / pressure sensor (memory sensor bath cap, cap) and equipped with an intrigued (Fig. 2.20) 31 flexible stretching EEG electrode array which has in agreement with the (flexible EEG Electrode Array of the Board of Trustees of the University of Illinois, Actors John A. Rogger, Kim Dae-Hyeong, Brain Litt, Jonathan Viventi, Title is; Conformable actively Multiplexed High-Density Serface Electrode for brain interving patent registration number WO 2012/167096 A2 WO 2012/167096 A3 US20130072775 A1 ) But we were looking for a new one Invention for stretcher flexible equipment of the 2nd EEG in one (fig. 2.3.4.31) 30 swim cap (cap) and at the same time is processed with one (fig. 63-64) 33.ab Flexible electronic cable and power is generated by (fig. 19 ) 32 Flexible stretchable rechargeable batteries is integrated in an elastic carrier material. Thus, a stretching effect in the 31 flexible EEG electrode array 2. EEG swim cap (cap) has arisen to (Fig. 31) 110 signal foreman processor recording neuronal activity from the surface of the cerebral cortex 35iqnt 42 Flexible Electrode Array Gets Inside Your Brain with penetrating to use designed electrodes. The 10 mm × 9 mm device consists of silicon nanomembrane 720 transistors in a 360 channel array. One major advantage of the hinged assembly is that it can be used in areas that are physically inaccessible to conventional rigid electrode assemblies such as in furrows, crevices or between the cortical hemispheres. The new device also allows high spatial and temporal resolution using a minimum number of wires and can be easily scaled to clinical sizes (80mm x 80mm). A worth invention in this is the (Fig. 20) 31.33.ab Flexible EEG electrode array with additional invention, a (Fig. 19) 32.33.ab expandable and implantable miniature batteries in the (Fig 2.3) bathing cap (bathing cap, Cap) (expandable and implantable miniature batteries (available from John Rogers of the University of Illinois in Urbana, it is not known if a patent stands here) that we modified with a newly invented composition of the (Fig. 70.71) 33 Flexible Electronic Cables (use as 33a) Insulation Thin flexible plastic tubing filled with a 33b liquid alloy of gallium and indium metals that conducts electricity very well (Comes from Prof. Dr. Michael Dickey at North Carolina State University in the USA where there is no patent) and thus (Fig. 19) 32 expandable and implantable miniature batteries in (Fig. 3) 30 bathing caps (bathing cap, cap) and the hereby procured electricity 1. Mobile spiroergometry, 2. Mobile 143 D4-EIT with 134 D4 ultrasound, 4. Mobile intermediate time registration 5. Mobile swimming-resistance train device with 6. Vein arteries Perceiving cameras, so that all individually processes together in (Fig. 31.) 109 Processing processor for 111 Wireless underwater communication 53 Wireless sensor 54 Flexible extendible antennas as well as one (Fig. 67) 102 Computer-based base station with 143 Flexible stretching receiver antenna.
• 3. A Further Invention for the Unit 1. Mobile Spiroergometry, 2. EEG Swimming Cap 4. Mobile Intermediate Registration 5. Mobile Floating Strength Device with 6. Vein Arteries Perceiving Cameras Comprising a further embodiment of an invention, it is necessary In the past, EIT measurements only made it possible to measure the lung volume using electrical impedance tomography in bedridden living beings. By expanding the invention to include 3. EIT electrical impedance tomography and with 134 4D ultrasound we have the option of a 3. Mobile 143 4D-EIT electrical impedance tomography with 134 4D ultrasound to follow in the course of living creatures. This allows us to measure the maximum lung and heart capacity of living beings in the course of movement, whereby we can then perceive the troughs and climaxes of the respiratory rhythms, resin frequency circulation on monitor and the values obtained. This procedure is completely radiation free.

Thus, in accordance with the company Swisstom AG Switzerland on their claim, International Publication Number WO 2011/113169 A1 WO 2012/45188 A1 US 2013/0116532 A1 US 2013/0217993 A1 WO 2013/113130 A1 The possibility given to their EIT for the author is to expand the invention that makes it possible to bring a (Fig. 31) 3. Mobile 143 4D-EIT, Electrical Impedance Tomography with 134 4D ultrasound in a moving procedure with a living being then both Im and submarine than on land in inner space by means of (Fig. 31) 109 Processing processor for 111 Wireless underwater communication 53 Wireless sensor 54 Flexible extensible center antennas and also a (Fig. 67) 102 Computer based base station with 143 Flexible stretching receiver antenna.

The invention describes a special (Fig. 23 to 33) 36. Waterproof Elastic 3. Mobile 4D-EIT with 4D ultrasound Burstband attachment around the thorax (thorax) of the living thing thereby making it possible the 3rd Mobile 4D-EIT Electrical Impedance Tomography with 4D -Ultrasound the lungs and heart changes in the motion of living beings on both in and underwater than on land inside (Fig. 31) 109 Processing processor for 111 Wireless underwater communication 53 Radio sensor 54 Flexible extensible center antennas and still one (Figure 67) 102 Computerized base station with 143 flexible stretching receiving antenna mediates. This marks the 3rd Mobile 143 4D-EIT with 134 4D ultrasound with (Figure 23 to 32) 36 Waterproof Elastic Band Attachment on the side of one (Figure 22) 35 Elastic Rib Band with 35a extra elasticity (sealing band) on the skin from the chest (thorax) is brought. This creates an airtight and watertight space so that no damp, water and air pockets between chest (thorax) is created. An additional water-containing Gils is coupled between the electrode elements and chest (Thorax) Sodass Sicherheid is 36 Waterproof Elastic Band Attachment with multiple 117 electrode sensor may result in electrical contact with skin. The measuring current then introduced via 38 electrodes produces a potential distribution in the chest thorax, which is measured via the electrodes and thus transmits 3 electroimpedance tomography (4D-EIT with 4D ultrasound) imaging via 109 processing processor 110 signal transmission wireless 53 wireless sensor or 54 flexible stretcher Zentantenne 111 Underwater communication and a computer-aided base station with a 143 Flexible stretching receiving antenna where the heart rhythm and lungs volume becomes visible. As a result, the content and movement of the heart and lungs can be observed by living things. Measurement Reasons are to measure the apparent volume content and rhythms of the performance of living things so that a difference in the content of the contents of the lung pulmonary heartbeat is mediated at low frequencies or high frequencies.

A problem with a living creature in movement is that it has lost some of its moisture and warmth with a 3. Mobile Elastic 4D EIT with 4D Ultrasound 36. Waterproof Elastic Band Attachment on the Skin of the Thoracic Chest and 4D EIT Systems (105) Glue Gel electrodes that, when in contact with the warm and moist skin of a living being, can drastically change their electrical properties. A warm and humid absorption has stimulated the electrical properties of the skin and stimulates its electrical properties.

Further, today's EIT Electrical Impedance Tomography and 4D Ultrasound has none of the 53 Wireless Underwater Communication Processing Processors with Wireless Sensor 54 Flexible Stretcher Centennial Antenna, as well as one (Fig. 67) 102 Computerized Base Station with 143 Flexible Stretching Reception Antenna Switching. Thus, the existing EIT Electrical Impedance Tomography with a DAC Digital Analog Converter, ADC Analog Digital Converter DSP, Digital Signal Processor and the 4D Ultrasound are built up from each other and single wired. So on, the EIT is currently needed for bedridden patients and try running in a standing experiment with cable. Direct examinations of movements on land or water are not yet available. So is looking for a solutions such as an EIT Electric Impedance Tomography can be converted to the 3rd Mobile 4D-EIT Electrical Impedance Tomography with 4D ultrasound for a living in motion the heart rate and pulmonary respiratory volume via via (Fig 111 Wireless underwater communication of a 53. Wireless sensors 54 Flexible extendible antennas as well as a 102 Computer-aided base station with 143 Flexible stretching receiver Antenna to transmit the lungs and heart recording.

Logical processes would be to adopt the existing EIT band attachment and 4D or live 3 ultrasound. However, if a living being in the water or in the rain would move herewith, then all of the information gained would be lost by the fact that the water or damp on the electrical impedance tomography was coming. A big problem was the wiring of the EIT and ultrasound with the equipment. You always had to walk with it as in the spiroergometry to get the values of the heart and lungs on picture and that would cost too much clamping.

So would be looking for an alternative that would be free from all wiring and water short circuiting. This solution was created only by the possibility of wireless 111 underwater communication in high frequency which is suitable for medium water and land by the company Dynitec GmbH under patent number DE 10044322 A1 , Next was searched for a (Fig. 22) 36 waterproof elastic band attachment where the new 3 4D-EIT electrical impedance tomography and newly 134 4D ultrasound could be processed with each other. A neoprene or diving suit stratch fabric would already be in the direction of the sought-after (Fig. 22) 36 Waterproof Elastic Band Attachment or an Eco-friendly Absorbent Structure that penetrated the water from beyond not pure load. An extra (Figure 22) 35 Elastic ribbed band of ± 20 mm with 35a extra elasticity between the skin and under (Figure 23.24.25) 36 Waterproof Elastic Burstband attachment have been processed and streamlined shaped so no one can read through water who can create a living thing in motion he would be in contact with water. At the same time, the (Figure 22) 36 Waterproof Elastic Burst Band Attachment should have no delay in the water so living things in water has been drifting. Because these different ones could move too easily in the water. Next, the (elastic) band of elastic banding like a 2 skin must sit on the skin of the animal as this otherwise complication would get in its course of motion. After proper cabling of the terminals 3. Mobile 4D-EIT electrical impedance tomography with 134 4D ultrasound would be found in (Fig. 63 + 64) 33.ab stretcher flexible Cables which can be brought up by the (Figure 28.29.) 36 Waterproof Elastic Burstband can be applied to a 109 processing processor.

A wide problem would be solved in the transpiration of the living being in motion. As each being in motion heats and transpires, the moisture drains away from them, and this moisture would be generated on the electrode electrode to make an electrical contact with the skin. The electrical properties would then change quite drastically. Thus, for Warm and Wet Lasting "Invention characterized" a device with a 132 Seebeck effect or with 133 Thermoelectric Peltier elements must be placed between the 3rd Mobile 4D-EIT Electrical Impedance Tomography and 134 4D Ultrasound so that the heated and Damp from the skin through the cold and warming is under pressure by thermoelectric Peltier elements and thus no great Warmten and damp Lasting may arise arise from the skin of the living being in movement sequence. The values of this warming and moisturizing load would be compared by an all around thoracic (thoracic) 76 humidity and temperature sensor so that the 3.4D-EIT electrical impedance tomography and 4D ultrasound has no hinder of warmth or wetness between skin and 117 electrode sensors of the 3.4D -EIT Electrical impedance tomography and 134 4D ultrasound.

The generated energy for this 143 4D EIT and 134 4D ultrasound with thermoelectric Peltier elements and 76 wet temperature sensor can then be supplied from the (Fig. 63 + 64) 33, 33a, 33b Flexible Stretchable Batteries.

• 6. Eine Erfindung und neue Entwicklung die auch weiter dürfte entwickelt werden kann ist, eine (Abb. 80 bis 87) 6. Venen Arterien wahrnehmende Digitale HD(4D)-Kamera die das Lebendewesen in Bewegungsablauf der Bewegung der Venen und Arterien auf billt können wehrgeben. Einer untersuchen und Patentierte Auswertung die dort ist, ist nur auf Venen wahrnehmende Kamera durch der Firma Evena Mediacal aus der USA unter den Patentanspruch Internationale Publikation Nummer WO 2013/163443 A2 vermeldet. Hierauf hat Autor Zustimmung von Evena Mediacal um die Venen wahrnehmende Kameras umzuwandeln auf Venen Arterien Wahrnehmende 4D-Kamera die auf Lebendewesen in Bewegung die Bewegung von Venen und Arterien durch Digitale HD(4D)-Kamera Wahrgenohmen kann werden in einer 4D oder Multiperspektivische Darstellung auf ein 102 Computergestützte Basisstation. Begründung hierfür ist das, der Firma Evena Mediacal nur auf Venen wahrnehmende Kameras den Blutabnahmen Wert legen für Krankenhausen und Ärztepraxis und der Firma Epsilon Bootes e. K. Herr John Pi-Mes die Möglichkeit die Bewegung der Venen und Arterien bei Herzfrequenz auf Kreislauf Verlauf mit (Abb. 80 bis mit 87) 6. Venen Arterien wahrnehmende Digitale HD(4D)-Kameras wahrzunehmen bei Bewegungsablaufen von Lebendewesen und weiter völlig Strahlungsfrei ist.

Thus, a further invention was found in a 4D or multi-perspective representation of the time perception in the space of the 3rd 4D-EIT electrical impedance tomography with 4D ultrasound-perceiving lungs and heart in the movement of a living being in motion. Due to the fact that only 3D is currently employed in the 3rd EIT Electric Impedance Tomography has been forgotten or has not been rewritten or thought of as a 4D multi-perspective image. So will describe in ultrasound (sonography) a 4D Multiperspectival representation which will rewrite as a live-3-D-Unitraschall. Thus, we used a 134 4D ultrasound with a 3 4D-EIT electrical impedance tomography in 36 Waterproof Elastic Burstband attaching around the chest (thorax) of the living organism needed to capture the animal's heart and lungs course in the movement of the living organism. In this way we denote a multiperspective of heart and lung representation by means of several projection centers, resp. the combination of different perspectives that make up the body of living beings. In addition to the use of multi-perspective in still images, it also finds application in the digital body of living beings to moving images. By using multiple projection centers in moving pictures, distortions can be avoided. Thus, the sphere retains its circular shape avoiding an elliptical shape of the sphere due to an image distortion so rewrite it in wikipedia.

• 6. An invention and new development that is likely to be further developed is a digital HD (4D) camera that detects the veins of the arteries (v. 80-87) and allows the living organism to sequence the movement of the veins and arteries defense give. One examine and patented evaluation that is there is only vein-sensing camera by the company Evena Mediacal from the USA under the claim International Publication Number WO 2013/163443 A2 reported. This is why the author has consent to Evena Mediacal to transform the veins-perceiving cameras into vein arteries. Perceiving 4D camera which can be used on living beings to move the movement of veins and arteries through digital HD (4D) cameras into a 4D or multi-perspective display 102 Computer based base station. Reason for this is that, the company Evena Mediacal only on veins perceiving cameras attach importance to the blood samples for hospitals and medical practice and the company Epsilon Bootes e. K. Mr. John Pi-Mes the possibility of movement of veins and arteries at heart rate on cardiovascular course with (Fig. 80 to 87) 6. Vein sensing arterial perceiving Digital HD (4D) cameras during movement of living beings and continue completely radiation-free is.

The invention provides (Figs. 80-87) 6. Vein Arteries Perceiving Digital HD (4D) Cameras When Recording Living Creatures Into Their Course of Movement Their veins and arteries can be perceived by Digital HD (4D) camera with support of 143 4D-EIT with 134 4D ultrasound to transfer the circuits of entire bodies to 102 Computerized Base Station. Since no living being is equal to another in motion. With this invention, we are trying to follow the expansion of Digital HD (4D) Digital Cameras (80 to 87) with the sixth veins and arteries to follow the heart rate and blood circulation in the movement of the life process. By bringing together 143 4D-EIT and 134 4D ultrasound scanners, we also have the lungs of Heart Live's motion sequence on 102 computerized base station on picture.

Further, the Digital HD (4D) 6th venous arteries (Figs. 80 to 87) would be of good support after seeking muscular motility in another organism of development of muscle-sensing Digital HD (4D) - Cameras and the search for the mobility of living things in his skeletal musculoskeletal system with skeletal bone-sensing Digital HD (4D) Cameras? These researches are another step in the biomechanical apparatus of the living being in motion sequence on picture.

The Invention (Figs. 80-87) 6 veined arterial Digital HD (4D) cameras that can bring the animal into motion sequence of the movement of the veins and arteries on a Digital HD Monitor is one way (Fig up to 87) 6. Veins, arteries perceiving Digital HD (4D) camera mounted on a (Fig. 80 to Fig. 87) 87 tracks and a (Fig. 80 to 87) 84 follower speed sensor the pace of the living being in movement can follow. This (Fig. 80 to 87) 87 tracks can be used both in water and on land. A Special (Fig. 80 to 87 89 Waterproof Case for (Figs. 80 to 87)) 6. Veins, arteries perceiving digital HD (4D) camera and attaching adapted 136 Lenzen (objective) to the depth of field, magnification and Nahlinsenrechner Observation by Scan Calculation sensor put the diameter of the veins and arteries in a different perspective so, not a small part of the veins and arteries is perceived as in existing vein perception cameras by the company Evena Mediacal But the whole body of living beings in motion with the (Figs. 80-87) 6. Vein-sensing digital arterial HD (4D) camera on 102 Computerized base station can then be further processed using a similar widescreen objective on the appropriate (Fig. 80 through 87) 6 To bring veins to the arteries perceived digital HD (4D) camera, a wireless signal transmission would be appropriate because of (Fig. 80 to 87) 6 veins, type Sensing Digital HD (4D) camera in motion is on (Fig. 80 to 87) 87 tracks and a cable connection would bring problems and put in order. Thus, a 110 signal transmission processing processor with a radio frequency sensor 111 and a computer base station may also be provided for this purpose. Or in Digital HD (4D) camera processes 14 reset button 15 Status Led, 16 UBS 3.0 with 17 SD / SDHC 19 memory cards.

• 4. Der Erfindung beschreibt einer (Abb. 38) 4. Mobile Zeit und Zwischenzeitregistration mit Endzeit für Schwimmer, Leichtathletik und Sportler die Autor ihm einer Nichtveröffentlichung unterlagen bei der Tax Office Enterprise Team-Anmeldung s-Hertogenbosch Niederlande unter Zeitnahmen System Registrierung Schwimm Zeiterfassung Registrierung 4 Anzahl 4.4194462.1 d.d. 01.10.2004 und reg. 4 unter der Nummer 4.513255.1 am 29.08.2005 unter Register und Zeiterfassung Leichtathletik in reg. 4 unter der Nummer 4.517992.1 ist gerüstet). ausgerüstet mit Sensoren A-B-C-D-E-F-G-H-I-J-K-L-M-N-O-P-Q die auf der (Abb. 40) 42 Welle-Killer sitzen oder auf verschieden platzen an einer (Abb. 54.) Bahn stationiert sind (geplatzt werden) und wen einer bewegend Lebewesen mit einer dafür geeignete 45.48 Sensoren R-S-T-U-V-W-X-Y-Z vorbei kommt auf einer (Abb. 45) 30 (Badekappe (Kappe) oder am Körper des Lebendewesen befestigt. Werden die (4) Startsprung Zwischenzeitregistriert Endzeit durch eine 109 Verarbeitungsprozessor 111 Drahtlose Unterwasserkommunikation sowie weiterhin eine 102 Computergestützte Basisstation Aufgezeichnet und auf Datei gespeichert. Ein großer Vorteil diese Entwickelung ist das es drahtlos und alle Sportler in einmal auf einer Bahn mit Start, Reaktion, Wende und Zwischenzeiten Registriert werden.

An additional invention would be with the (Fig. 80 through to 87) sixth vein-sensing digital HD (4D) camera developing a perspective into Digital HD 4 Dimensional and the time the movement of the living being finds itself as a wider dimension as well the body of living beings as an application in the digital space in moving images of a living being in motion. If we take living body and represent this body as the content of this space, then we have a body without limbs. Let's assume that (Fig. 31.33-36) 36 Waterproof Elastic Band Attachment 143 4D-EIT with 134 4D ultrasound lung heart on the living thing chest (thorax) to burst. Then we have a body room with heart and lungs in motion. So in Physical Room 2 we have visualizing movement progression. The disadvantage is that the veins perceiving camera still in a 2D exists verzier appears. So by medium new invention (Figs. 80 to 87) 6. Vein Arteries Perceiving Digital HD (4D) Camera to Bring the Vein Arteries in the Multiperspective Visualization Room of the Corporeal Space to 102 Computerized Base Station by Medium New (Figs with 87) 6. Vein Arteries Perceiving Digital HD 4D camera from the company Evena Mediacal from the USA. But this one has a vein perception camera and is for blood draws in hospitals and doctors office and gives us only a slight picture of the body taking pictures of the veins and last see that the veins teaches by means of a thumb pressure on veins and again feel who the thumb pressure is off. However, a perspective of the space is not present through the veins is shown only in flat 2 D. Reason for this is that a vein of blood is felt and we only see the overflow of the veins and not the content. (Fig. 55) If we take a perspective of a drawing from a landscape (Fig. 51), then we have created a 3D dimensional formation (imaginary). These we do not get through the constants moving bloodstream through which the blood mass is not transparent and in veins constantly red blood flows are felt the same. But if we want to set up and perceive a digital HD, 4 dimensional veins and arteries in the body space, then we need a scan calculation sensor that converts the diameter of the veins and arteries in the body space around a sham Transparent veins and arteries. Through this sham Transparent veins and arteries Connecting to 4D-EIT 4D ultrasound, we can stimulate a lungs movement with the hertz frequency and veins arteries circulatory, which allows us to first generate an apparent circulation course on screen. Thus, a multiperspective were designated a spatial representation by means of several projection centers of the scan calculation sensor of the diameter of the veins and arteries, resp. The combination of different perspectives, the inner one of the veins and arteries of the living being, results in a sequence of movements played by a processing processor wirelessly on image And can be transmitted on a dedicated underwater communication system which detects the computerized base station and is completely radiation free.

• 4. The invention describes a (Fig. 38) 4. Mobile time and split time registration with end time for swimmers, athletics and athletes the author subject him to a non-publication at the Tax Office Enterprise Team Registration s-Hertogenbosch Netherlands taking timings system registration swimming time registration 4 number 4.4194462.1 dd 01.10.2004 and reg. 4 under the number 4.513255.1 on 29.08.2005 under register and time recording Athletics in reg. 4 under the number 4.517992.1 is prepared). equipped with sensors ABCDEFGHIJKLMNOPQ sitting on the (Fig. 40) 42 wave killer or are stationed on various places on a (Fig. 54.) Railway are burst (burst) and who a moving living beings with a suitable 45.48 sensors RSTUVWXYZ over it Mounted on one (Figure 4) 30 (swim cap or body of the living thing), the (4) Start Intermediate Time Registered End Time is recorded and stored on file by a processing processor 111 Wireless Underwater Communication and a Computerized Base Station This development is that it is wireless and all athletes are registered once on a track with start, reaction, turn and split times.

In the past, true problems during the training always start jumps, split times End times the several swimmers in once in the swimming pool to capture with stop watches. Since the coach has only the possibility to handle 2 stop watches on different distances where there were 2 swimmers. The other swimmers had to wake up until the swimmers had swum their tracks. So it took too long for the 10 to 20 swimmers to stand in all distances in full on stop watches registered.

Modeling Timekeeping with Stop Watches on a 25 or 50 Meter Pool Distance For a trainer swimming preparation of 200 meters is the most important in training for the competition to get the weak points out of a swimmer faster and by means of a wireless underwater communication (Fig. 17). 21 Microphone to new (Fig. 13 to 18) 9 Sports glasses the swimmer has on him (Fig. 18) 22 Hearing aid detects how swimmer has to improve his position. Well the correction improvement in difficulty points in sports training for competition in the Zwischenzeitregistration with 2 stop watches much longer for a coach to take out and mediate duration. Since the float must first come out of the water and then the errors can be communicated in the. Thus, by means of a new (Fig. 38.54) 4. Time Intermediate registration End time with (Fig. 13 to 18) 9 Sports glasses with appropriate 21 Microphone 22 Hearing aid for athletes with (Fig. 16) 109 Processing processor (111) Wireless underwater communication 53 Wireless sensor 54 Flexible Stretching Centennial Antennas as well as a Detachable Flexible Receiving Antenna with Microphone and Hearing Aid

The invention is characterized in that a program with (Fig. 38.54.58.59) 4. Time and split time registration with end time registration system in a 109 processing processor system with 111 Wireless underwater communication with radio frequency 53 radio sensor and 54 Flexible stretching antennas and a 102 Computer-based base station with Flexible Stretching stretcher receiving antennas would mediate (Fig. 38 46 to 53). The beginning A1. Start time end B1.1. same time Begin B 2. Reaction time from start block end time C2.1. same time Begin C3. Flight time to head Touch Water surface end Time of flight D3.1. same time Begin D4. Underwater time head contact water surface end E4.1. Underwater time, same time Begin, E5. Clean swimming time, (6. In the middle at the same time (Fig. 40.41.42) 49 3 Beat Measure beat frequency with you calculation here under 6.1.).

Calculation of beat frequency and stroke lengths

Let's measure the time of 3 whole swim strokes and part of this by 3 is the time of 1 swim stroke. 60 / The time of the strike = 60 / 1.51 = 0.397 = SF = is the total beats per minute.

Model 30 m is clean swim time, Swims 30 meters in 24 sec. 30 M / 24 sec. = 1.25 m / sec. 60 × 1.25 = 75 / 39.7 = 1.899 meters.

Total Antall hitting 30 yards is 15.88 hitting. at 5 meters before turn head top end Clean swim time F5.1 same time Begin F7. Beginning to Begin Ending G7.1 same time Begin G8. Turn to feet stop mat end H8.1 same time finish H9. Or Reaction Turning time then let go of feet Beckenrande end Turning time H9.0 same time Begin H10. Underwater time (Up to 15 meters, a swimmer may remain underwater after that it must again run on the water surface of its swimming movement) of the time he underwater bleit until head touch water surface is registered underwater cup end I10.1 same time Begin I11. Head Touch Water surface is then start again Clean swimming time up to 5 meters for swimming pool end (12th in the middle at the same time (Fig. 40.41.42) (49) 3 beating beat frequency measure calculation 12.1). J11.1 same time finish or Begin J13. the beginning of turn up to the feet against the swimming pool walls standing end K13.1 or hands K14. Finish time. Reaction Turning time end L15.1 same time Begin E4.1 Releasing turn Begin underwater catch time, up to 15 meters Underwater time for this must again perform its swimming movement on the water surface) the time he underwater bleit up head touch water surface is registered underwater catch time. E4.1 head touch water surface start clean swim time, same time E5 Etc. (6. In the middle At the same time (Fig. 48 to 53) 49.50.51 3 Beat Beat rate measured on time to 6.1) The beat rate of the poor as legs can be individually measured and registered underwater as well as surface water.

wo die Zeitwahrnehmung von Begin Zeit, Reaktionszeit, Zwischenzeiten und Endzeit wird vermittelt und aufgenommen und registriert zum Proramm in Computer

Indicated Pünten (Fig. 38 Sensor

Where the time perception of Begin Time, Reaction Time, Split Times, and End Times is conveyed and recorded and registered to precorporate in Computer

Further, we were able to measure a constant heart rate, blood pressure, EEG, ECG, water temperature, hall humidity ridge temperature, and gas levels of inside and clearing up at the current swim time of the swimmers. These biomechanical and biophysiological values are very interesting to sports science. The invention characterized in that a switchgear makes it possible the units 1. Mobile Ergo-spiroergometry system, 2. EEG bathing cap (cap) 3. Mobile EIT system, 5. Mobile swimming-resistance train device with 6. Vein arteries Perceiving cameras to each other Wireless communications underwater 53 Radio sensor with 54 flexible-extending antennas and a 102 Computer-aided base station will be recorded and stored on file. This (Fig. 38.53) 4. Mobile Time Interim Registration End Times can be used both at National and International Competitions for trainers. Such an overview has what makes an athlete in training or competition with a receiving system on a laptop.

Another invention of the (Fig. 38.53) 4 time split time registration system is for track training as athletics, speed skating, skiing, cycling these time perception are equal to increase as with swimmers in the water.

Based on an athletics track (Fig. 54), the livestock passing by are to place sensors precisely at certain places. Which in turn is interesting for sports science. Start times whereby then the reaction of the athletes is registered. Its stepping frequency and its constant running speed points come to the track for registration. These are measured in different places like swimming. These same development shots are also possible with other sports mentioned.

Thus, we assume that a track of both athlete and speed skating, skiing, cycling a course has what they can measure are so as the following Vorbilden one (Figure 53) 124 100 meter run (sprint) start time A1.0 end start time B1.1, same time B2.0 Begin reaction time, end of reaction time C2.1 Simultaneous Begin C3.0 start time first 10 m 15 m end time D3.1. Simultaneous Begin D4.0 first intermediate time 20 m to 30 m end E4.1 Simultaneous Begin E5.0 time, 50 m intermediate time end 60 m F5.1. At 6.0. 50 m comes a measurement of the step frequency 6.1 end. Ending the time of 3 full steps and dividing them by 3 is the time of 1 running step.

Example calculation of step frequency and step lengths.

• Speed 60 meters in 5.2 sec. ⇒ 60 / 5.2 = 11.538 m / sec. Step frequency 0.75 sec. Over 3 steps 0.75 / 3 0.25 sec / step Step lengths 0.25 sec./step. × 11.538 m / sec. 2,882 m / step Number of steps over 60 m 60: 2,882 = 20.81 steps

• 5. Der Erfindung ist dadurch gekennzeichnet das (Abb. 60. bis mit 63) 5. Schwimm Laufwiederstand-Zug gerät „ein Gerät ist” das für Wasser und Landsport Bio-Physiologische als Meganische kraft Wiederstand und Zug Schnelligkeitstraining geeignet ist und wirkt auf eine (Abb. 64 bis mit 67) 61 Federbandstahl oder (Abb. 67.68) 62 Elektronische Konstantzugwinden die mit (Abb. 70 bis mit 74) 33.a.b. 64 Flexibel Dehnbare Elektronisch Kabel oder drei Kabbelige Kabel verarbeitet type M AWG32/7 im (Abb. 71.74) 65 Gürtelband oder ein 109 Drahtlos Verarbeitungsprozessors am (Abb. 31.69) 67 Körpergürtel die Werten des Lebewesen in Bewegungsablauf im Training registriert auf (Abb. 31. 69) 109 Verarbeitungsprozessor und übertragt via ein 110 Signalübertragungsverarbeitungsprozessor oder 111 Drahtlose Unterwasserkommunikation mit 53 Funksensoren 54 Flexible Dehnbare Antennen) sowie weiterhin eine 102 Computergestützte Basisstation 142 Flexible Dehnbare Antennen Vermittelt

End F7.0 Simultaneously Begin G7.1. 80 m End time run 90 m G8.0 Simultaneous H9.1 90 m to end time 100 m H10.0 Leakage. One further (Fig. 54) (4) Time Intermediate Registration End Time Measurement will go over all other distances as shown on the (Figure 54) Path 124.125.126 is given

• 5. The invention is characterized by the (Fig. 60. to 63) 5. Floating running-train device "a device is" that is suitable for water and land sports Bio-Physiological as Meganic strength resistance and train speed training and acts on a (Fig. 64 to 67) 61 Spring band steel or (Fig. 67.68) 62 Electronic constant tension winches which are equipped with (Fig. 70 to 74) 33.ab 64 Flexibly stretchable electronic cables or three choppy cables type M AWG32 / 7 im (Fig (71.74) 65 Belt or a wireless processing processor (Figure 31.69) Body girdle records the values of the organism in the course of movement in training (Fig. 31. 69) 109 processing processor and transmits via a 110 signal processing processor or 111 Wireless underwater communication with 53 wireless sensors 54 Flexible Stretchable Antennas) as well as 102 Computerized Base Station 142 Flexible Flexible Antennas

Due to the speed and force exerted on (Fig. 60) 127 Float resistance and (Fig. 61) 128 Float tension in comparison with (Fig. 62) 137 Running resistance (Fig. 63) 138 Traction equipment is the speed and force exerted on the running train train by the sprung movement of a height force effort arises when a sprinter starts to run after the start signal then a float. It then remains the question of whether it is not too risky for a swimmer to start doing a body girdle to do and then let his start jump instead of letting them start in the water. What is best for the safety of the swimmer.

So different 65 webbing are used for these different forces. The 139 run-pull train device is exercised by the height running speed of a height force. Thus, the (Fig. 74) 65b.64 webbing goes over an athletics track distance up to 120 m and has the following tasks. A 65 strap type 1701/20 weight (tolerance about 1%) 1,42 kg per 100 running meters tear strength about 120 kg. Wide (tolerance ± 1 mm) 20 mm thickness (tolerance ± 0.2 mm) 1.6 mm. Material Chain 1 Polypropylene Yarn number dtex 1100 Proportion 100% (warp + weft) The product is made of 100% ÖKO-TEX 100 certified material. 65b webbing is (will) be processed with a 64 three chopper stranded cable type M AWG32 / 7 inner shell 0.03 mm, outer shell 0.56 mm, tensile strength 0.20 / 250 Kl. Or with a three chubby 33.ab flexible Stretching cable , This (Fig. 74) 64.65b.33.ab webbing can be used to process all data on the processor (Fig. 31. 69) 109 over a distance of 0 to 120 meters from the computer. It is also possible to transmit (110) Signal Processing Processors to the Sprinter Carrying Belt (Fig. 62) 137 Traveling Force or (Fig. 63) 138 Traveling Force on a 102 Computerized Base Station. A (112) hardware with specified character of the data convey on 113 software is; Time and Date, Names, Age, Road, Residence, Country, Scientific, Thermometer, Wind Emotivity, Tachometer, Sphygmomanometer, Calorie Meter, Distance Meter, Speedometer, Timepiece, Intermediate Time, Step Frequency, EEG, ECG, Circulation Measurement and a 66 Circuit System The webbing of body trend. A1 defended these are read by one on the (Fig. 60.61) 139 run-train pulls and can then be downloaded directly to an internal 16 UBS 3.0, 115 Stick, 114 laptop. The invention thereby marked 109 processing processor makes it possible a 1. Mobile ergo-spiroergometry system, 2. EEG bathing cap (cap) 3. Mobile 4D-EIT and 4D ultrasound system, 4. Mobile time interval registration system with 6. Vein arteries Perceiving cameras to each other This will be registered and stored on a file (Fig. 110) Signal Processing Processor Wireless 53 Wireless Sensor 54 Flexible Stretch Antennas with 111 Underwater Communication as well as a 102 Computerized Base Station.

In comparison, the (Fig. 58.59) 140 float-pull device has a low float velocity (load) on the webbing then the running resistance of the train. This comes through that the float in the water can bring less force on the webbing and over a distance of 25 m or 50 m with swimming resistance or swimming stroke, so has 65 webbing the following tasks.

When using the (Fig. 58.59) 140 Float-drag device, we need one (Fig. 71) 65.65a Belt Article number 1701/15 Weight (tolerance approx. 1%) 1.098 kg per 100lfm Tear strength approx. 120 kg. Width (tolerance +/- 1 mm) 15 mm Thickness (tolerance +/- 0.2 mm) 1.6 mm Material Chain 1 Polypropylene Yarn number dtex 1100 Proportion 100% (warp + weft) The product is made of 100% ÖKO-TEX 100 certified Material provided. Also here in 65a webbing a three chopper cable is processed type M AWG32 / 7 inner jacket 0,03mm, outer jacket 0,56 mm, tensile strength 0,20 / 250K1. Or with a three chubby 33.a.b flexible expanding cables. With this you can process all data from distance 0 to 60 meters to the computer. It is also possible to transmit all data (71) Wireless signal transmission from the swimmer to the (71) Wireless signal transmission from the swimmer to the (Fig. 58.59) 140 Float resistance train Wireless submarine communication with radio frequency area to the computer base station on which all values are collected with suitable hardware program which communicate the characters of the data on 113 software and furthermore on display with indicated indication of the data; Time and Date, Names, Age, Street, Residence, Country, Age, Sport, Occupation, Scientific, Water and Humidity Air Temperature, Body Thermometer, Wind Emotivity, Heart Rate Monitor, Sphygmomanometer, Calorie Meter, Distance Meter, Speedometer, Timepiece, Intermediate Time Measurement, Finish Time, pacing rate, heart rate, beating frequency, EEG, ECG, breathing gas measurements, circulatory measurement, humidity and metabolism, as well as the cardiopulmonary performance is qualitatively and quantitatively possible, and the course of the veins and arteries with perceptive 4D cameras to the blood circulatory system on perceptual image transmitted , A1 defended this are read from a display that sits on the swimming resistance train and then immediately on an internal UBS or stick, laptop can be downloaded. The invention characterized by having a switchgear which makes it possible to couple 1. Mobile ergo-spiroergometry system, 2. Mobile EIT system, 4. Mobile time interval registration system with 5th venous arteries Perceiving cameras as unit r and transmitting them through a processing processor Signal transmissions Wireless underwater communication as well as continue a computerized base station will be registered and stored on file.

To the invention thereby characterized (fig. 58. to 61. 65) 5 Floating running-train-train device consists of a converted form of a (Fig. 58. to 61. 65) 57 lift truck system which brings by its mobility and rind many advantages.

Characterized that the mobility for the adjustability of the (Fig. 58. to 61. 65) 5. Floating running-resistance train equipment is a converted (Fig. 58. to 61. 65) 57 pallet truck system and that is the most present practical device. Since large forces must be exerted on the (Fig. 60-61) Running resistance train device the resistance train device must stand stable on every ground and must not be flipped by the moving living being. So the 57 lift truck system has an advantage in many points. 1a. Schwär ± 300 K1., 2b. Agility through its front wheel and smaller rear wheels, 3c. Through its hydraulic system, it can be brought up and down so that it has a fixed position on the ground. 4d. A handle that is equally easy to control with brake. 5e. Roller has made of plastic and at the same time there are no problems on a flow corridor in a swimming pool or train so no noise. 6f. It's easy on the palate.

The invention is characterized in that the floating run-train pull device from 2. Possibilities can be built. 140 Float resistance train device and 139 running resistance train device. The 61 wound rolled up spring steel strips or is provided by a 62 Elektron Konstantzugwinden.

The invention of a (Fig. 64.) calculation of both torques of the spring band steel force is defensive against the (Fig. 63) torque chart by the firm Eberle Kern-Liebers group of companies which gives a value calculation for both resistance and train float on a swim lane 25 m and 50 m as for athletics Sprinter 100 meter track and the torque of the spring steel strip force on 100th of Sec. can be set.

One (Fig. 67.68) 62 Electronic constant winches which can be adjusted to 100th of Sec. The resistance and traction powers of swimmers or runners can be exercised

Disadvantage is that of the (Fig. 67.68) 62 Electronic Konstantzugwinden too easy by the exhausted force development before the Athletics Sprinter will slip through the whole device behind him advantages is that the Elektron Konstantzugwinden is small and in the swimming pool would not suffer the flow here , Thus characterized by the safety of the development of the floating running train of the running resistance train device preferred is wound with a spring steel strips wound on a drum and then technically processed on a specially developed pallet truck and thereby characterized the safety of the development of the swimming resistance train device Electronic constant winch designed on a pallet truck with rubber or plastic wheels so no harm in the swimming pools can arise.

LIST OF REFERENCE NUMBERS

1

Mobile spiroergometry

2

Mobile EEG bathing cap (cap)

3

Mobile 4D-EIT electrical impedance tomography with 4D ultrasound

4

Mobile Time Interim Registration End Time

5

Mobile swimming running resistance train device.

6

Mobile veins arteries Perceiving Digital HD (4D) Camera.

7

mask

8th

Snorkel mask

9

Sports glasses / goggles

10

Glass and optics glass

11

Mask band

12

Integrated interior HD cameras

13

Integrated external MD cameras

14

reset button

15

Status Led

16

UBS 3.0,

17

SD / SDHC

18

memory cards

19

Swimming goggles slot on mask or mask slot for swimming goggles

20

Schnorchelrühr

21

microphone

22

Headphones also hearing aid

23

Snorkel mask bands

24

Infrared sensor valve

25

Touch water perception sensor (infrared sensor)

26

pressure sensor

27

circuit

28

Butterfly valve (closure)

29

Follow-up program for units Spiroergometry, EEG, 4D-EIT 4D ultrasound, time registration system, swim-tracking device, veins, arteries Perceiving 4D camera.

30

Swimming cap (cap)

31

Flexible Stretcher EEG Electrode Arrey

32

Stretchable and flexible implantable miniature batteries

33

Flexible Stretchable Electronic Cable a. Insulation thin hoses made of an elastic plastic and b. liquid alloy of the metals gallium and indium filled,

34

Waterproof mini or small outlet

35

Final Flexible Stretch Band 35a with Inner Elastic (Sealing Tape)

36

Elastic Waterproof Burstband attachment

37

potential distributor

38

Electrodes introduced messström

39

electrode assembly

40

Electrodes measured

41

Startblok

42

Welk killer

43

Competition program

44

Training track, sports track or sports hall

45

Perception sensors or memory sensor

46

printing plate

47

pressure sensors

48

Swimming cap with pressure sensor

59

Ring or finger pressure sensor for arm beat frequency

50

motion sensor

51

Foot pressure sensors or pacing sensor for step or kicking frequency

52

touch pads

53

wireless sensor

54

Flexible stretching centennial antennas

55

Battery or rechargeable battery

56

coupling processor

57

lift truck system

58

Rubber or plastic wheels

59

Handle which is easily controllable with brake system

60

Electronic resistance regulators to 100st of seconds.

61

Spring steel strips

62

Electronic constant pull winches

63

drum

64

Electronic cables

65

Girdle. Or number 65a. 1701/15 or 65b. Number 1701/20

66

Switching system on the webbing for separation body

67

Straps Body Belt

68

Wind Gefühligkeitsmessungssensor

69

Handshake Rate Monitor

70

Kicking Rate Monitor

71

Wireless signal transmission

72

Calorie sensor

73

Distance sensor

74

Speedometer sensor

75

Timepiece sensor

76

Humid and thermometer sensor

77

Hartfrequenzmess sensor

78

Blood pressure sensor

79

Calorie sensor

80

ECG measurements

81

Cycle measurement

82

Zwischenseitmessung

83

Small engine

84

Follower speed sensor

85

Wide-angle lenses

86

Depth of field Image scale and Nahlinsenrechner

87

tracks

88

suckers

89

Waterproof Case for Veins Arteries Perceiving Camera

90

Diametersensor

91

Diameterrechnersystem

92

Flexible flow / volume sensor

93

Readings extraction unit

94

control unit

95

Telemetry Model Computer

96

Interface module computer

97

Memory module computer

98

language module

99

Ergo-spiroergometry component module

100

More channels ECG module

101

More channel EEG module

101

Operating / display elements

102

Computer based base station

103

interfaces

104

Telemetry unit

105

Swimming Brine Elastic Band with Flexible Stretchable Electronic Cable

106

Spiroergometry program

107

Flexible CO ₂ / O ₂ sensor

108

tripods

109

processing processor

110

Signal transmission processing processor

111

Underwater communication.

112

hardware

113

software

114

Laptop

115

Stick

116

Actuator sensor Touch water sensor

117

electrode sensors

118

Stepping height, Mittler, Niederich

119

Shoe pressure sensor

120

skate

121

Ice pressure sensor

122

Skiing pressure sensor

123

perception sensors

124

100 m Sprint run sensing sensors on start, response time, 10 m. 20-30 m 50-60 m 80-90 m 100 m hurdles 110 m end-time

125

200 m Sprint run sensing sensors on start, response time, 10 m. 20-30 m 80-100 m 120-140 m 180-200 m end time

126

400 m running perception sensors on start, response time, 10-30 m 60-80 m 160-180 m 260-280 m 320-340 m 370-390-400 m end time. And continue to set as 800 m. 1000 m. 1500 m. 3000 m.

127

Floating running resistance

128

Floating traction

129

DAC Digital Analog Converter

130

ADK analog digital converter

131

DSP digital signal processor

132

Seebeck effect

133

Thermoelectric Peltier elements

134

4D ultrasound

135

Hint of a fisheye lens

136

Lenzen lenses

137

Running resistance

138

running traction

139

Running resistance train device

140

Floating resistance train device

141

Hydraulic system

142

Flexible stretcher receiving antennas

143

4D EIT

144

CCD sensor

145

Digital

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10044322 A1 [0001, 0011]
• WO 2012/167096 A2 [0005]
• WO 2012/167096 A3 [0005]
• US 20130072775 A1 [0005]
• WO 2011/113169 A1 [0006]
• WO 2012/45188 A1 [0006]
• US 2013/0116532 A1 [0006]
• US 2013/0217993 A1 [0006]
• WO 2013/113130 Al [0006]
• WO 2013/163443 A2 [0014]

Claims (22)

The units Mobile 1. Spiroergometry, 2. EEG bathing cap (cap), 3. 4D-EIT 4D ultrasound, 4. Time interval time registration system, 5. Floating running resistance train device and 6. Mobile veins, arteries perceiving Digital HD (4D ) cameras; Characterized; The Mobile 1. Spiroergometry of an Anatomic Face (Main) Shaped (Fig. 3.9.) 7 Mask, (Fig. 6 to 12.28.30) 8 Snorkel Mask is equipped in a streamlined shape and the 20 snorkel-touch by 25 touch-water perception sensor (Infrared sensor) 24 infrared valves the automatic 28 butterfly valve (closure) is waterproof and attached to 7th mask or 8th snorkel mask fixed or detachable (Fig. 13 to 18) 9. Sports goggles associated with 12.13 2 integrated internal and external HD color cameras with (Fig. 1 to 8) 30 bath cap (cap) for the measurement of (Fig. 20) EEG and the (Fig. 3-9.) 7 mask and (Fig. 6 to 12.28.30) 8 snorkel Mask is suitable for 1. Mobile Spiroergometry with a (Fig. 14.15.16) 109 signal processing process in conjunction with (Fig. 23 to 31) 36 Special Waterproof Mobile Elastic 143 4D-EIT and 134 4D Ultrasonic Band Attachment to the Skin of Thorax used. And this creates air, water-tight space so that no water and air pockets between chest (thorax) and 364 Elastic Mobile 143 4D-EIT with 134 4D ultrasound band attachment arise whereby the 39-electrode arrangement for making an electrical contact with skin may arise. The measurement current, which is then introduced via 38 electrodes, generates a potential distribution in the chest thorax, which is measured via the 40 electrodes and so that the result of (Fig. 31) Mobile 143 4D-EIT 134 4D ultrasound is transmitted via (Fig Processing processor Intermediate registration End time System the (Fig. 38.39.46) Start time Response time Perception registered by medium (Fig. 39) 41 Starting block 46.47 Pressure plate and 45.50.53.54. 55.56.71.73.74. 75.76.82 Sensors on the (Fig. 38.40.80.81) 42 Shaft Killer or Placed Differently (Fig. 54) 124.125.126 webs and one (Fig. 44) 52 stop mat (end time) and with one (Fig. 60 to 71) 5. Floating running resistance Train by means of a (Fig. 60 to with 66) 61 Spring band steel torque or (Fig. 62.67.68) 62 Electronic constant winches by means of one (Fig. 67) 60 force resistance train control to 100th of Secondaries send resistance or train forces (Fig. 31.73.74) 65a.b. Belt belt (Fig. 69) 67 carrying belt (body belt) living beings in the movement sequence all values so that all given by 1. Mobile spiroergometry, 2. EEG bathing cap (cap) 3. 4D-EIT electrical impedance tomography with 4D ultrasound 4. Time interval time registration End Time, (Fig. 60 through to 63) 5. Mobile Floating Running Device Train (Fig. 31) 109 Processor Processor 111 Wireless Underwater Communication 53 Wireless Sensor 54 Flexible expanding antennas and a 102 computer-based base station are still registered. (Figs. 80-87) 6. Veins, Arteries-Catching Cameras Transmission of living beings into motion and via 109 signal processing processors, as well as continuing to display antennas for processing on a 102-based base station with 142 flexible stretcher , And 1. Mobile Spiroergometry, 2. Mobile EEG swimming cap (cap) 3. Mobile EIT, 4. Mobile Interim Time Registration with 5. Mobile Floating Running Device Train and 6. Mobile Veins, Arteries Sensing Digital 4D cameras is also suitable for single use. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) -Cameras according to claim 1. characterized marked; That is why the mobile 1 Spiroergometrie (Fig. 3.9) 7 Mask as (Fig. 6.7.8.10.11.12.28.30) 8 snorkel mask with 20 snorkel stirrer is equipped in a streamlined shape and further on top of 20 snorkel stirrer a 25 touch water perception sensor ( Infrared sensor) whereby one of the 24 infrared valves closes the automatic shut-off valve (closure part) when the water surface is interrupted by living beings (Fig. 6.7.8.10.11.12.28.31) 8 snorkel mask and underwater so no water in the snorkel stirrer (Fig .8.10.11.12.28.31) 8 Snorkel mask can be created and all first spiroergometry values persist during mediation (Fig. 31) 109 Processing processor 111 Wireless underwater communication 53 Wireless sensor, 54 Flexible extensible center antennas still on a 102 computerized base station with 142 Flexible stretcher Receiving antennas and that when re-emerging surface of the water upper open the 28 butterfly valve (closure part) d. So that neither can continue to breathe and here the 1st Mobile Spiroergometrie continue to convey values. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) -Cameras according to claim 1. characterized marked; (Figure 4) 2. Mobile EEG swimming cap (cap) is elastic and additional one (Fig. 22) 35 Elastic ribbing at the hole rounding (Fig. 1) 30 swimming cap (cap) so that no water penetration or moisture at Scalp hair comes through with it (Fig. 19) 32.33 Stretch and flexible implanted miniature batteries of the power supply (Fig. 70.71) 33.33a.33b Stretching stretcher electronic cables to processed (Fig. 20) 31.33 Flexible Stretchable Multielectrode Array and so (Fig. 21) on 31.32.33 Electroencephalography EEG in (Fig. 3.4.29.31) 20 swim cap on scalp supplied to measure the accumulated electrical activity of the brain by recording the voltage fluctuations on the head surface and electrophysiology so on electrophysiological neurological diagnostics It also indicates the electrical muscle activity via a (Fig. 31) (109) Processing processor with 111 Wireless Underwater Communication 53 Wireless Sensor, 54 Flexible Stretchable Centennial Antennas on a 102 Computerized Base Station with 142 Flexible Stretcher Reception Antennas for Processing Values on Image History. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital MD (4D) -Cameras according to claim 1. characterized marked; The 3 Mobile 143 4D-EIT with 134 4D ultrasound in one (Figure 23 to 37) 36 Elastic Waterproof Clear or cloth band attachment with 88 plastic suction cups wherein 143 4D-EIT electrical properties of the electrode assembly and 134 4D ultrasound echo pulse Procedure on the skin brought from the thorax (thoracic) and is streamlined shaped, and thereby resulting air, moist and waterproof room no damp, water and air pockets between chest (thorax) and 143 4D EIT with 134 4D ultrasound 88 plastic suction cups Elastic Waterproof band attachment can occur during movement of living beings so that electrical properties can be imparted to the 41 electrode assembly for performing bio-signal measurements and echo-pulse processes in attached 36 Elastic Waterproof Band Attachment (Figs. 28 to 38) (33 + a + b) Flexible stretcher electronic cables and power supply through (Fig. 26.27 29 to with 32) (32) Stretchable and Flexible Implantable Mini-Batteries and this is in co-operative stretching of rubber, silicone and polycarbonate plastic (Fig. 19. 26 to 327) 36 Streamline Elastic Waterproof Band Attachment So that a waterproof working contact of the mobile 1. Spiro geometry, 2. Mobile EEG swim cap (cap), 4. Start time split time registration with end time 5. Floating running train to the 102 processing processor mediates and 111 Underwater Wireless Communication and a 102 Computerized Base Station. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train and 6. Veins, arterial perception Digital HD 4D cameras according to claim 1 characterized thereby; (Fig. 38 to 59) 4. Mobile start time, intermediate registration and end time for living beings in motion in water on land, snow and ice is equipped with (Fig. 38.54) 45 perception sensors (memory sensors) on the (Fig. 38.40. 80.81) 42 wave killer sitting or on different places at one (Fig. 54) 124.125.126 track ordered and a processing processor transmission of a living being in motion with a suitable (Fig. 41.42.43.45 to 52.55.bis with 59 ) Sensors are mounted by (Fig. 42.43.45 to 52.55 to 59.) Sensors on both a 30.31 EEG swim cap (Fig 4.31) cap, 119 shoe, 121 skate or attached to (Figure 31.42.43) body and 32.33 Power Supply Stretch and Flexible Implanted Miniature Batteries with Extensible Cables in the (Fig. 4-21) Bath Cap and Band Attachment Cap) or on the (Fig. 18.19) Body of the living being attached in motion so that the (Figure 31.38.54) 4. Starts, split time and end time is mediated by a 109 processing processor and mediates 111 wireless underwater communications, as well as a 102 computerized base station. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital MD (4D) -Cameras according to claim 1. characterized marked; the mobile (Fig. 60 to 71) 5. Floating running resistance train device for biomechanical force 60 Resistance and tension control to 100st of seconds is adjustable for speed training on the (Fig.64.65.66) Torque spring steel and (Fig.67.68) Constant pull winches with (71.72) 33.ab Flexible Elastic Electronic Cable im (Fig. 73.74) 64.65ab belt band processed on (Fig. 31.69) 67 Body Belt with (Fig. 31.69) 110 Signal processing processor on living beings in motion over a distance of 0 to 60 or 0 to 120 meters so that the resistance and train values of the living being are registered in the course of motion and transmitted via Fig. 73.74 64.65ab33.ab belt tape with electricity wires or 111 Wireless underwater communication 53 radio sensors 54 Flexible stretchable center antennas as well In addition, a 28-base computer-aided base station with 142 flexible-stretching receiving antenna is registered That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) -Cameras according to claim 1. characterized marked; The whole body of living beings of the veins and arteries through medium suitable vein arteries perceiving digital MD 4D camera become true and are transmitted to the signal processing processor 53 wireless sensors 54 flexible extensible center antennas and furthermore a 28 computer-based base station with 142 Flexible stretching receiving antenna records That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Intermediate Registration with Mobile 5. Float-running traction device and 6. Vein, Artery-sensing Digital HD (4D ) Cameras according to claim 1 and 2a. That the mobile (Fig. 31) 1. Spiroergometry (Fig. 3.9) 7. Mask as (Fig. 6.7.8. 10.11.12.30) 8. Snorkel mask with a 76 humidity and temperature sensor, 107 Flexible CO ₂ / O ₂ Sensor is equipped with 109 processing processor for gas analysis 93 measurement recovery unit, 104 telemetry unit, 79 calorimeter sensor, 77 resin frequency sensor. 72 calorie sensor. 80 ECG measuring sensor, 78 blood pressure measuring sensor, 81 circulation sensor, 94 control unit Memory model, 103 interfaces, 100.101 More channels ECG and EEG module (Fig. 31) 14 Reset button, (15) Status LED, (16) UBS 3.0 (17) SD / SDHC (18) Memory Cards, 55 Battery or Rechargeable Battery, 56 Coupling Processor, 29 Units, 106 Spiroergometry Program 111 Wireless Underwater Communication, 53 Wireless Sensors 54 Flexible Tensile Center Antennas to 102 Computerized Base Station Records with 142 Flexible Stretching Reception Antenna That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) Cameras according to claims 1 and 2b. Characterized; the (Fig. 4 to 8. 31) 2. Mobile EEG bathing cap (caps) the processed (Fig. 20.) 31 Flexibly stretchable EEG electrode array in the 30 bathing cap (cap) in effect controlled by (Fig. 19.70.71) 33 .ab stretcher electronic cables entangled with a power supply (Fig. 19) 32. Stretchable and flexible implantable miniature batteries and connected via a (mini) or small (see Add. 3.4.8.31) 34 waterproof mini or small socket (Figure 31) 2. EEG bathing caps (caps) so that it is at the same time supplying power to the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile split time registration with Mobile 5. Float running train and mobile 9 swimming goggles. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) -Cameras according to claim 1 and 2c characterized marked; The (Fig. 30 to 37) 76 Moisture Temperature Sensor Control via (Fig. 31) 109 Processing processor of the transpiring heated moisture skin of moving organisms with one (Fig. 30 to 37) 133 Thermoelectric Peltier elements compensates for damp and heat between Skin and (Fig. 22 to 32) 36 Elastic Waterproof Band Attachment with (Fig. 30 to 37) 88 plastic suction cups and (Fig. 28 to 32) 143 4D-EIT is suppressed with 134 4D ultrasound elements and the electrical Impedance tomography and ultrasound without complications is mediated. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Float-running traction device and 6. Veins, digital arterial perception 4D cameras Claim 1. and 2d. Characterized; (Figure 41.42.43.50.51.52) 49 Hand beat rate and (Fig. 49.52.53) 51 Beat rate in swimming chest, butterfly, crawl, jerk can measure and appropriate for land, snow and ice (Fig. 57.58.59) 50.51.118 Up to 122 Choke Frequency Flow Pressure Sensor Motion Sensor This transmits to 109 processing processor for 111 wireless underwater communication and continues to provide a computerized base station. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile split time registration with Mobile 5. Float running train and 6. Veins, arteries perceiving digital HD (4D) cameras according to claim 1 and 2e characterized marked; The (Fig. 65.66) Torque spring band steel and (Fig. 67.68) Constant draft winches with drive power of a drive motor and equipped with one (Fig. 44) drums so that gearshift stage is set to 100th of Sec. can be set between 0 and 60 sec, and the switching stages can be set both forward and backward. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) -Cameras according to claim 1 and 2f characterized marked; The recorded vein arteries through an average (Figure 79) 90 Diametersensor measurement that depicts the veins and arteries in a Digital MD 4-Dimensional Moving Space so it has a hint of fisheye lenses and the diameter of the veins arteries through (Fig. 79) 91 Diameter calculator system (sensor) in a perspective Digital 4D timeline so that 143 4D-EIT 134 4D ultrasound brings together the cardiovascular through a computation so that respiratory lungs with heartbeat and veins arteries one unit circuit in 109 processing processor, 111 wireless underwater communication, 53 wireless sensors 54 Flexible, expandable center antennas to 102 Computer-aided base station with 142 Flexible stretching receiving antenna mediated. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) Cameras according to claims 1 to 3a. Characterized; That the Mobile 1st Spiroergometry (Fig. 3.9) 7. Mask as (Fig. 6.7.8.10.11.12.30) 8. Snorkel mask is waterproof and removable detachable (Fig. 13.14.15) 9. Sports glasses with 2 Inner and 2 outer 12.13 integrated processing HD color cameras equipped with a (Fig. 62) 33rd stretcher electronic cable from 33a. Insulation thin tubes elastic plastic. The 33a tubing is filled with a 33b liquid alloy of the liquid metal core gallium and indium, and conducts current in co-operative stretch in rubber, silicones and polycarbonate plastic processed (Fig 3.9) 7. Mask bands, (Fig. 6.7.8) Snorkel Mask bands, 20 Snorkel stirrer, (Fig. 13. 14.15) 9. Sportbille ligaments and (Fig. 2) EEG bathing cap (cap) Stretching and acting, whereby the power supply is the same (Fig.) 32 Stretchable and flexible implantable Mini Spiral Batteries, so the necessary functioning of the units 1. Mobile Spiro Geometry, 2. EEG bathing cap (cap), swimming goggles with 2 or 4 interiors and external 12.13 integrated processing HD color cameras to power and 109 processing processor to the 111th wireless Underwater communication 53 Wireless sensor 54 Flexible stretcher Zentastnenne and continue a computerized base station with flexible stretcher receiving antenna. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) Cameras according to claims 1 to 3b. Characterized; The (5.) Mobile EEG swimming cap, (Cap) of a Detachable (Figure 4) pressure and sensing (memory) sensor (37e) carries with it the registration of the living being in the movement process (37) time intermediate time registrations turn and end time What this passes by mounted (Figure 15) 37d (memory) perception sensors on the (Figure 17) wave killer so that the time perception points via processing processor wherein a 17 SD / SDHC 18 memory cards with 16 UBS 3.0 and with 110 signal processing processor Wireless 111 Underwater communication 53 Wireless sensor 54 Flexible stretcher Zentantenne and further a 28 Computer-aided base station with 143 Flexible expanding receiving antenna is registered. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) Cameras according to claims 1 to 3c. Characterized; The (Fig. 22 to 32) 36 Elastic Waterproof Band Attachment with 88 Plastic Suction Cups Can be Transparent Flexible Stretching Elastic Rubber, Silicone and Polycarbonate Plastic or Neoprene Stratch Fabric with Composite Technology or Eco-friendly Absorbing Structure which penetrates the air, damp and water except not pure load. A 35 elastic band with extra elastic 35a elastic band on chest (thorax) at all times (figs 22 to 32). 36 Elastic Waterproof Bandage Closes right on the skin as second skin and one is streamlined shaped and gives no impulsive effect on body. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) Cameras according to claims 1 to 3d. Characterized; The Mobile Start Time Intermediate Registration and End Time Sensors on a Run, Sky, Ice (Figure 54) 44 Track for Living Subjects in Movement on Specified Burst Registration can give so (step 55 to 59) 118 step height, mid, down through 119 102 Shoe pressure sensor 121 Ice-skate pressure sensor 122 Ski-pressure sensor measures the step-frequency and transmits to 109 Processing processor Wireless 111 Underwater communication 53 Wireless sensor 54 Flexible stretcher Center antenna and further 102 Computer-aided base station with 143 Flexible expanding receiving antenna is registered. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) -Cameras according to claim 1 to 3e characterized marked; the (Fig. 60 to 68) the 127,137 resistance and 128,138 traction with a (Fig. 74) 65 webbing wound on (Fig. 60 to 64.67.68) 63 drums and 65 webbing made of type 1701/20 material chain 1Polypropylene and (fig. 74) 64.65b webbing is made with 2 or 3 chopper wire type MAWG32 / 7 or cable cables (Fig. 74) 33.ab Flexible Stretchable Electric Cable for Running Living over a distance of 0 to 120 meters and (fig. 73) 64.65a Webbing suitable for aquatic life Number 1701/15 Material chain 1 Polypropylene and processed with 2 or 3 chopped cables type M AWG32 / 7 Inner jacket 0,03mm, Outer jacket 0,56mm, Pulling force 0 20 / 250K1. Or with a (Fig. 73) 65a.33.ab Flexible Stretchable Electric Cables for Floating Animals over a distance of 0 to 60 meters and that all values are conveyed with (Fig. 31) to 109 Processing Processor (Fig. 67) 102 Computerized Base Station which is mounted on (Fig. 67) 1. Floating running train is mounted. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) Cameras according to claims 1 to 3f. Characterized; The Digital HD (4D) cameras that detect venous arteries are mounted on tracks both in water and on land in a watertight enclosure with a motor control and with suction cups at the edge of the pool or on a track with tripods Pace of living beings in motion by means of a motion sensor in enclosures with processing processor can follow the course of veins and arteries of living beings in motion sequence. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile intermediate time registration with Mobile 5. Floating-running train and 6. Veins, arterial perception cameras according to claim 1. to 4e. Characterized; the mobile (Fig. 36.37) Floating running train may be transmitted to a wireless or wire signal transmission from living organisms to resistance or train may transmit data on which data is displayed on computer; Time and Date, Names, Age, Road, Residence, Country, Scientific, Thermometer, Wind-Sensitivity, Tachometer, Sphygmomanometer, Calorie Meter, Distance Meter, Speedometer, Timepiece, Intermediate Time, Step Frequency, EEG, ECG, Circulation Measurement and (Figure 31) 29 Connection by unit has continued with a circuit system the webbing of body trend. So that all resisted reading from a display that sits on the running-resistance train and can be equal to an internal UBS or stick, laptop downloaded. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) -Cameras according to claims 1 to 5 characterized; the mobile (Fig. 35.36.37.38) Floating running train has a handle, the control bar is equipped for protruding wheel and with brake is so on Hydraulic effect moving up and down goes and that swim-running train device consists on plastic wheels so no damage in the Swimming pools or on the sports tracks can be created and that it consists of a weight so swimming or running resistance train can not be taken by living beings in movement sequence with. That the units; 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile Interim Time Registration with Mobile 5. Floating-running train device and 6. Veins, arteries-aware Digital HD (4D) Cameras according to claims 1 to 6 characterized in that; The unit is 1. Mobile Spirometry, 2. Mobile EEG swimming cap (cap), 3. Mobile 4D-EIT with 4D ultrasound, 4. Mobile start time interim registration end time, 5. Mobile swimming-resistance train device and 6. Mobile veins, arteries Perceptual Digital HD (4D) Cameras as a Mobile Unit can then be used as an Individual Product So that each Protozoa product is equipped with a processing processor 111 Wireless Underwater Communication 53 Wireless Sensor 54 Flexible Stretching Antennas as well as 102 Computerized Base Station with 143 Flexible Stretching Reception Antenna is taught.

Images