Computing devices, methods and computer-readable mediums for providing guided meditation to patients based on results of a psychological test are provided herein. Contemplated computing devices can comprise a processor, a memory for storing a computer-readable medium comprising computer-readable instructions stored therein, wherein the instructions are executable by the processor to serve psychological tests to the patient through a virtual patient portal, transform results of the psychological tests into sets of psychological conditions of the patient, match predefined meditation paths to the patient, and serve guided meditation tracks in the matched meditation paths to the patient through the virtual patient portal.

The invention introduces a method for remotely diagnosing tongues based on deep learning, performed by processing unit, including: obtaining a medical-treatment request and medical-record information containing a shooting photo from a client apparatus over a network; inputting the shooting photo to a plurality of partial-detection convolutional neural networks (CNNs) to obtain a plurality of classification results of a plurality of categories, which are associated with a tongue of the shooting photo; displaying a screen of a remote tongue-diagnosis application on a display unit, which contains the classification results of the categories; obtaining a medical advice corresponding to the classification results of the categories; and replying with the medical advice to the client apparatus over the network.

A Chinese pulse wave measuring device is provided, which includes an airbag, a pressure control module, a displacement sensing module, a scanning position control module, and a computing device. The above-mentioned pressure control module, displacement sensing module, and scanning position control module are respectively communicationally connected to the computing device, and the pump of the pressure control module is connected to the airbag through gas tube and valve. A method of using the above-mentioned pulse wave measuring device is also provided.

A system and method for producing sound signals that comprises an image capturing device to capture an auric color representation of a body part of a person. The auric color representation represents a blocked energy area of the body part. A processing device divides the auric color representation into a plurality of arcs. A display device communicating with the processing device displays the plurality of arcs. A transcranial sound stimulation device determines a block-breaking frequency corresponding to the blocked energy area. A tone generator generates a set of wave-patterns corresponding to the block-breaking frequency. An audio device produces sound signals based on the set of wave-patterns, to be heard by the person thereby healing the blocked energy area of the body part.

A system for aiding a subject development of physical, mental, and/or emotional skills, subject awareness of their mind state, body state, and/or emotional state, and providing subject biofeedback includes subject-internal signal sensing devices wearable by the subject for sensing signals generated internal to the subject's body; subject-external signal sensing devices for sensing signals generated external to the subject's body; a local computing unit configured for authenticated wireless communication with the subject-internal and subject-external signal sensing devices, and presenting particular types of mind state, body state, and emotional state information to the subject, for instance, in the form of biofeedback (e.g., mind-body state biofeedback, and/or mind-body-emotion state biofeedback); and a cellular network communication unit configured for communicating data corresponding to sensed subject-internal signals and sensed subject-external signals to at least one server by way of at least one cellular network.

A method for detecting a particular syndrome based on hemodynamic analysis that includes steps of: obtaining a piece of hemodynamic data representing a hemodynamic waveform; performing moving average (MA) filtering on the hemodynamic waveform to obtain a filtered waveform; determining troughs in order to determine waveform segments of the filtered waveform; determining smoothness of the waveform segments; and determining a relation between the hemodynamic waveform and a particular syndrome based on the smoothness of the waveform segments, and generating a detection result.

The present invention relates generally to a novel personalized telehealth management system and a novel method to synchronously detecting the dynamics of the temperature difference of symmetrical points of the human body for management of human health. Using high-resolution temperature sensors, combined with dynamic data of symmetrical changes in physiological indicators such as blood pressure, pulse, blood oxygen, and blood sugar, and the surrounding environment and symptom information, the proposed method is capable of judging physical and functional balance values through artificial intelligence. This invention provides a new clinical dynamic monitoring method of Chinese and Western medicine, and enables an accurate personalized health management system CWPAS, which is the abbreviation of check, warning, prevention, assessment and overall solution. Simply using an individual's left and right symmetrical temperature difference, the method is able to quantify disease and health care status, and design a personalized treatment plan based on the direction and absolute value of the symmetrical temperature difference as well as other symmetrical life information difference including pulse and blood pressure. The proposed method can be used to precisely monitor a patient's health status and dynamically evaluate the patient's treatment plan. With the use of the Internet of Things and artificial intelligence analysis, the method can be continuously updated and upgraded, resulting in greater social and economic benefits.

A current sensor may take measurements of electrical currents that flow between two limbs of a mammal through at least a portion of the mammal's torso and/or an electrical stimulator may apply an electrical current dose thereto. Current measurements may be taken during a single diagnostic session while a ground electrode contacts the body at a preferably distal location on a limb and a probe electrode is sequentially placed at different locations on distal portions of other limbs. Each of the current delivery locations may be an acupuncture point. An electrical current state for the diagnostic session may be calculated. A lookup table may be used to determine one or more associated possible medical conditions and electrical current dosage may be used in an attempt to alter bodily electrical conductivity.

A probe device provides an enhanced bioelectric and spring-loaded sensing tip with an integrated force sensor. The probe device measures the bioelectric conductance value from a patient for therapeutic and/or diagnostic purpose using the spring-loaded sensing tip. In addition, the probe device measures the force applied by the spring-loaded sensing tip against the patient using the integrated force sensor. Using feedback from the force sensor and the bioconductive data of the patient, the force applied at the spring-loaded sensing tip may be adjusted to obtain improved results.

Provided is an information processing system capable of configuring an avatar that more realistically reflects a state of a user. The information processing system includes: vital data acquiring means for acquiring vital data including a heart rate of a user; a terminal apparatus that transmits, in real-time via a communication network, the vital data acquired by the vital data acquiring means; and an information processing server that processes the vital data transmitted from the terminal apparatus, wherein the information processing server includes: a storage unit that stores the vital data; a user state estimating unit that estimates a state of the user based on at least the heart rate and a heart rate variability calculated, based on the heart rate; an avatar data creating unit that creates display data for displaying an avatar reflecting at least an estimation result by the user state estimating unit; and a communication interface that, when a transmission request for the display data is received via the communication network, transmits the display data to a source of the transmission request.