A Pilates Exercise System. A member ID of a member of the Pilates exercise system is received. A selection of a Pilates exercise routine comprising of two or more Pilates exercises is received. Settings associated with a previous performance of at least one of the two or more exercises by the member are provided.

The present invention is generally directed to methods, systems, and computer program products for coordinating musculoskeletal and cardiovascular hemodynamics, and more directly to stationary and non-stationary exercise equipment that include adjustable behaviors and are used with repetitive activities. The equipment is adjusted automatically in real-time to alter the work output, cadence, and/or timing of the user's physical activity in response to their monitored cardiovascular and musculoskeletal signals to achieve and maintain a targeted coordination of their heart and musculoskeletal pump cycle timing.

A head mounted virtual reality object synchronized physical training system includes a virtual reality device, a physical training equipment, and a physiological signal sensor. The virtual reality device includes a display operable to display a virtual reality object according to an operation of the user. The virtual reality device is detachably mounted to a head of the user and provides the user with a function of interaction. The physical training equipment includes an exercise data sensor operable to detect exercise data that the user operates the physical training equipment. The physiological signal sensor is operable to detect a human body physiological signal and a human body movement signal of the user. The physical training equipment and the physiological signal sensor have a function of synchronization with the virtual reality object displayed on the virtual reality device.

Disclosed are various approaches for determining the maximum oxygen consumption of a person, also known as maximum aerobic capacity or VO.sub.2 Max. A person is positioned on a treadmill. Attached to the person is a harness configured to apply a horizontal force to the person. A work rate for the person can be calculated based at least in part on the magnitude of the horizontal force applied by the harness and the velocity of the belt. The maximum oxygen consumption for the person can then be calculated based at least in part on the previously calculated work rate.

Disclosed a system (100) for enacting a positive and a negative pressure on a limb. The system (100) includes an air compressor (102) coupled to a reservoir (104), a piston assembly (106) configured to the reservoir (104), wherein the piston assembly (106) further comprises a piston (108) circumfused inside a tube (107), a pneumatic ring (114) coupled to the system (100) via the piston assembly (106) maintains intermittent pressure and prevents formation of a venous blood clot ischemic injury to a tissue distal to the pneumatic ring (114) compression due to lack of blood flow.

A method of treatment for congestive colon failure (CCF) including evaluating an origin of a lipase and/or an amylase from a biological fluid sample from the subject, optionally analyzing a level of the lipase and/or an amylase from the biological fluid sample from the subject, optionally imaging a colon and a pancreas of the subject and providing laxatives, an anti-fungal composition, fat, a composition selected from a group comprising glucosamine, methylsulfonylmethane (MSM) rhamnan sulfate, Sulodexide, Rosuvastatin, Metformin, Hydrocortisone, Antithrombin, Etanercept, Heparin, Albumin, Fresh frozen plasma (FFP), Poloxamer-188, vitamins, trace elements, a locally acting vasodilator, anaerobic microbial culture, pickled fruits, pickled vegetables, preserved meat, and fermented juices or a combination thereof based upon results of the first three steps.

The present disclosure relates to an organism trapping device that includes a vibration wave generator configured to generate frequency ranges from 1.00 to 1.67 Hz (Hertz), an inciting engine communicatively coupled with the vibration wave generator, and configured to generate signals representing vibration parameters based on the generated frequency, a walled container operatively coupled with the inciting engine and adapted to contain fluid and receives the generated signals to simulate flow of blood in human blood vessels based on the vibration parameters to attract number of organisms towards the device, a fumigating agent adapted to compress the number of organisms entering into the device, sensors configured to sense an entry of number of organisms into the device, and a processor communicatively coupled with the sensor and activates the fumigating agent based on the signal received from the sensor. The present disclosure also relates to method of trapping organisms.

An information processing apparatus includes a setting unit and a providing unit. The setting unit sets an exercise intensity. The providing unit provides exercise information used by a user to achieve the exercise intensity.

An electric training apparatus is configured to apply, by a load motor, a load on a rotating body configured to apply a load on an exercising person, detect an exercise physiological response value of the exercising person and a number of revolutions of the rotating body, perform control for gradually increasing the load of the load motor toward a set load upper limit value so that a detection result of the exercise physiological response value of the exercising person approaches a target exercise physiological response value set in advance, and change, before an exercise or during the exercise by the exercising person, the load upper limit value in response to a control command input based on a state of the exercising person, a state of the control, and a perceived exertion scale for the exercising person.

Provided is an apparatus for managing a player with a guard including a sensor sensing a vital information of a player to calculate an injury risk of the player to thereby manage a condition of the player, the apparatus including: a communication unit receiving the vital information from the guard and transmitting the injury risk to the guard; a memory storing a program calculating the injury risk to manage the condition of the player; and a processor connected to the communication unit and the memory to execute an operation implemented by the program, in which the program may include instructions using the vital information and pre-stored vital recovering ability data of the player to calculate the injury risk of the player.