111 results about "Diagnostic monitoring" patented technology

The invention provides a disposable sensor patch for non-invasive monitoring and recording of infrequent cardiac events. The patch is thin and flexible for comfortable wear on the person's chest for automatic analysis and recording of ECG. The patch is inexpensive and simple for self-administration. The patch incorporates a battery, ECG amplifier, and a processor for analyzing ECG waveform and recording events. A software algorithm searches for a cardiac abnormality. The patch is designed for continuous long-term wear exceeding 3 days for diagnostic monitoring and exceeding 14 days for event detection. In one embodiment a preformatted report is automatically generated by the patch for wireless transmission to a reporting device such as a generic printer or a wireless network system. The patch may also incorporate a marker switch to correlate recorded ECG data with the patient's perception of a cardiac event.

The present invention relates to methods and compositions for the treatment and diagnosis of cardiovascular disease, including, but not limited to, atherosclerosis, ischemia/reperfusion, hypertension, restenosis, and arterial inflammation. Specifically, the present invention identifies and describes genes which are differentially expressed in cardiovascular disease states, relative to their expression in normal, or non-cardiovascular disease states, and/or in response to manipulations relevant to cardiovascular disease. Further, the present invention identifies and describes genes via the ability of their gene products to interact with gene products involved in cardiovascular disease. Still further, the present invention provides methods for the identification and therapeutic use of compounds as treatments of cardiovascular disease. Moreover, the present invention provides methods for the diagnostic monitoring of patients undergoing clinical evaluation for the treatment of cardiovascular disease, and for monitoring the efficacy of compounds in clinical trials. Additionally, the present invention describes methods for the diagnostic evaluation and prognosis of various cardiovascular diseases, and for the identification of subjects exhibiting a predisposition to such conditions.

A system and method are provided for automatically developing and implementing, a comprehensive customized care plan for a patient, to address all of the patient medical and non-medical (e.g., social, quality-of-life, personal) needs, utilizing a wide variety of information: both gathered both personally from a patient by a medical professional and also collected automatically by one or more telemedicine systems. The system and method of the present invention also continually re-assess and dynamically modify the comprehensive care plan, and additionally enable a wide variety of services and benefits to be made available to the patients in a manner automatically customized for their specific needs, with the offered services and benefits being dynamically adjusted as the patient needs change or evolve. In addition, the inventive system provides platform-independent capabilities so that diagnostic systems and devices from various vendors may be freely mixed to provide patients with customized diagnostic monitoring at the lowest possible cost.

A chromatography and fluidic device with connections capable of automated component changing, diagnostic leak and current sensing. The chromatography-electrospray device contains a chromatography column, a pre-column, a spray emitter, or other fluidic component imbedded within one or more inserts. The inserts are robotically placed in receiving hardware, and a “plug and play” compression fitting connection mechanism makes the fluidic seals in an automated fashion. A plurality of sensors capable of detecting leaks is situated in the device near leak-prone regions. The electrospray emitter has a current sensing electrode in proximity of the electrospray region, capable of detecting the electrospray current. In conjunction with an electronics system, these sensors allow for system and component diagnostics. The diagnostic information may then be used for manual or automated system repair.

A diagnostic monitoring system and method is employed for one or more vapor compression systems such as air conditioners and heat pumps having a compressor, an indoor air handler fan coil and an outdoor condensor. Temperature, voltage and current sensors are provided at the outdoor condensor to determine that at least one vapor compression system is operating properly. Data obtained from the sensors is wirelessly transmitted to a receiving-device for use by the systems' custodian or repair service provider and includes information concerning an occurrence of periods when one or more of the vapor compression systems are operating at an abnormal state.

Apparatus and methods in which very small volumes of material may be extracted, delivered, interrogated or stimulated via optical, electromagnetic or mechanical means, in vivo or in vitro, for site-specific detection, characterization, stimulation, diagnostics or therapy, comprising optical, fluidic, chemical, electromagnetic and biological techniques applied via a microprobe in a single intra-parenchymal tissue perforation procedure in the brain. The primary use of the device is in neuroscience research, clinical diagnostics and therapeutics applications in the brain, however, the device may also be beneficially applied to other organs and biological systems. Human clinical applications may include neurosurgical intra-operative monitoring, extra-operative chronic monitoring of devices introduced in an operation, and diagnostic monitoring combined with simultaneous neuroimaging.

Systems and methods for intelligent and flexible management and monitoring of computer systems are provided using platform management controllers (PMCs) located on circuit boards of a computer system. The PMCs provide for enhanced circuit board certification and security, enhanced systems monitoring and reporting, and enhanced systems control. The PMCs also allow for emulation of processor-based devices and are low-power, low-cost and very fast when compared to the devices replaced and functionality provided. A power supply tracking apparatus helps to ensure that a first power input to an operational circuit maintains a predefined relationship to a second power input to the operational circuit. Systems and methods for receiving computer systems diagnostics information and for customizably displaying such information from a diagnostics monitoring device are incorporated into a computer system. The monitored computer system information is transmitted to a diagnostics device, such as by infrared or by a novel temporary wired connection.

An automobile including a self-diagnostic monitoring server and healing can be implemented. The vehicle monitoring system can include an automobile system comprising a self-powered motor vehicle used for transportation. The vehicle system can include a sensor system arranged on a set of components of the automobile system and coupled to an energy providing system in the automobile system to be provided with energy by said energy providing system, said sensor system obtaining data about at least one property for each component of the set of components of the automobile system and converting the data into signals. The vehicle system can include a communication system in the automobile system. The vehicle system can include an analytics system to receive the data and determine a state of each component of the automobile system based on the at least one property of each component.

A wireless monitoring unit performs condition monitoring associated with a test point location of a host machine. The unit includes a high performance vibration sensor useful for monitoring the host machine for fault conditions and the like. The unit includes a second vibration sensor that has poorer metrological performance, but draws a comparatively insignificant amount of power from the battery. The second sensor takes a vibration measure periodically, which measure is processed to evaluate whether the machine is in a state eligible to undergo a health assessment. Diagnostic monitoring using the high performance vibration sensor is enabled only when the host machine it is in the eligible state. A low power temperature sensor provides additional data for guarding against a false trigger, in effect allowing the processor to distinguish against vibration from another machine propagating to the host machine causing the host machine to vibrate while the host machine is not running.

The invention relates to an optical module monitoring system, comprising a controller, a digital diagnosis monitoring module, an automatic test module, a performance adjustment module, a calibration module and a database. The digital diagnostic monitoring module is used for monitoring the running parameters of the optical module according to the operation commands of the controller, and feeding the monitoring results back to the controller; According to the monitoring results, the controller controls the performance adjusting module to adjust the modulation current and bias current of the optical module. The automatic test module is used for automatically calibrating the emitted light power of the emitting end of the optical module and the received light power of the receiving end of the optical module according to the operation command of the controller, and setting calibration parameters of the emitted light power and the received light power; The calibration module is used to read and calibrate the calibration parameters in the database according to the operation commands of the controller. The invention has the beneficial effects that the controller is used to control the digital diagnosis monitoring module and the automatic test module, the optical module is monitored in real time, and the actual value is truly reflected.

Embodiments provide for monitoring of an online user experience and/or remediating performance issues, but are not so limited. A computer-implemented method of an embodiment operates to receive, pre-aggregate, and aggregate client performance data as part of providing an end-to-end diagnostics monitoring and resolution service. A system of an embodiment is configured to aggregate performance data of a plurality of client devices or systems as part of identifying latency issues at one or more of a tenant level, geographic location level, and/or service provider level. Other embodiments are included.

The invention relates to a data acquisition and control platform, which belongs to the field of data management control. The platform provided by the invention comprises a field monitoring module, a data analysis module, a statement analysis module and a threshold value alarming module, wherein the field monitoring module monitors field equipment by utilizing a sensing monitoring device; the data analysis module performs analysis processing on detection data transmitted back by the sensing monitoring device; the statement analysis module generates a statement by the processed detection data, and displays the statement to a user; and the threshold value alarming module is used for monitoring the processed data, and prompting alarming for the data exceeding an alarming threshold value. The platform provides strict operation control, a networked database, diagnostic monitoring, reporting and automatic alarming, realizes the scientific, systematic and comprehensive monitoring of the equipment, enables the user to acquire comprehensive information about the running conditions of the equipment, assists enterprises in analyzing and controlling the state of the equipment, greatly improves the reliability of the equipment, greatly increases the utilization rate of the equipment, reduces the labor intensity of engineers, saves the production cost, improves the production efficiency and reduces dangerous occurrence.

A system and method are provided for managing bundles of applications and services over a network between a server system and client computers. Related applications and services are bundled together in one package so that a user is able to quickly and easily configure a computer to perform a specified task. By combining both the applications and the services in one bundle, users no longer have to search the Internet for necessary components. Furthermore, additional features that allow portability of the bundled applications and services in addition to diagnostic monitoring are included.

Certain embodiments provide systems and methods for biometric identification in an integrated electrophysiology and hemodynamic diagnostic monitoring environment. Certain embodiments provide a clinical diagnostic system accessible via biometric identification. The system includes a biometric scanner integrated with the clinical diagnostic system and a processing device in communication with the biometric scanner. The biometric scanner receives biometric data from a user. The processing device receives the biometric data from the biometric scanner and verifies the biometric data against a stored biometric identification. The processing device allows user access to the clinical diagnostic system based on the verification.

The invention relates to a method and a device for carrying out a method for conducting a vibration diagnostic monitoring and assessment of individual machine parts (M1,... Mn) of a machine (M), preferably a rotary machine, using a frequency analyzer.

The invention discloses an improved system of expanding optical module digital diagnostic monitoring. The improved system comprises an optical receiving submodule, an optical emission submodule, a limiting amplifier, a laser driver, a micro controller, a digital potentiometer, a storage unit, a sampling module and a switch module, wherein the laser driver is used for providing driving current for the optical emission submodule; the switch module comprises a field-effect transistor; the sampling module comprises a first sampling resistor and a second sampling resistor; the micro controller is also used for detecting input voltage; when the input voltage reaches a set threshold value, the switch module is controlled to be on; the sampling module outputs the composite resistance value of the first sampling resistor and the second sampling resistor; at the moment, the monitoring range of expanding optical module digital diagnosis is a first power range; when the input voltage is lower than the set threshold valve, the switch module is controlled to be off; the sampling module outputs the resistance value of the first sampling resistor; and at the moment, the monitoring range of expanding optical module digital diagnosis is a second power range. Therefore, the original monitoring range can be expanded, and the monitoring precision is improved.