| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 340870040 | With calibration | 7 |
| 20100127891 | Device for controlling a safety signal range of a medical patient monitoring apparatus - The invention relates to a device for controlling a safety signal range of a medical patient monitoring apparatus. Such a medical patient monitoring apparatus is for instance an Electrocardiograph in emergency and intensive care areas in hospitals. The invention provides a device for controlling a safety signal range of a medical patient monitoring apparatus according to the invention comprising data acquisition means capable of acquiring data representing a patient monitoring parameter, processing means for processing the acquired data for providing a reference safety signal range for said patient monitoring parameter, and adjusting means for adjusting the safety signal range on the basis of reference safety signal range. | 05-27-2010 |
| 20110285545 | APPARATUS AND METHODS FOR SEARCHING AND SELECTING AN RF TELEMETRY CHANNEL TO ESTABLISH A LINK WITH AN ACTIVE MEDICAL DEVICE - An apparatus and method for searching and selecting an RF telemetry channel to establish a link between an active medical device and a remote device is disclosed. In the absence of any communication request, the available communication channels are scanned periodically to perform a long-term analysis. For each channel, a long-term indicator (iCLT) that is representative of a long-term availability is generated. Upon receipt of a communication request from the remote device, the communication channels are scanned to perform a short-term analysis, a short-term indicator (iCCT) that is representative of the short-term availability is generated. The short-term indicator is weighted by the long-term indicator, to generate a weighted short-term indicator (iCP). Based on the weighted short-term indicator, a communication channel is selected as the communication channel for the communication request. | 11-24-2011 |
| 20110291857 | METHOD OF POWER AMPLIFIER CALIBRATION - The exemplary embodiments include methods, computer readable media, and devices for calibrating a non-linear power detector of a radio frequency device based upon measurements of the non-linear power detector output and the associated power amplifier output level, and a set of data points that characterize a nominal non-linear power detector. The set of data points that characterize the nominal non-linear power detector is stored in a calibration system memory as nominal power detector output data. The measured non-linear power detector outputs, power amplifier output levels, and the nominal power detector output data is used to determine a power detector error function that characterizes the difference between the response of the non-linear power detector and the nominal non-linear power detector. The power detector error function and the nominal power detector output data are used to develop a calibrated power detector output data set that is stored in the non-linear power detector. | 12-01-2011 |
| 20140043170 | AUGMENTED MESH DELIVERY SYSTEM - A method is disclosed including receiving with a controller at a destination node signal samples and associated sampling time indications. The signal samples and the associated sampling time indications are received from a source node via a mesh network. The signal samples are delivered with sampling time indications generated at the source node to form a series of signals corresponding to one or more characteristic(s) related to electricity supplied to one or more electrical devices from a power source. The method also includes applying a time domain convolution procedure to the received signal in the time domain that is uniformly sampled. The weighting of sample values in time domain convolution procedure is determined at least partially based on information indicative of the statistical behavior of a corresponding realized sample process. | 02-13-2014 |
| 20140043171 | AUGMENTED MESH DELIVERY SYSTEM - A method is disclosed including receiving with a controller at a destination node signal samples and associated sampling time indications. The signal samples and the associated sampling time indications are received from a source node via a mesh network. The signal samples are delivered with sampling time indications generated at the source node to form a series of signals corresponding to one or more characteristic(s) related to electricity supplied to one or more electrical devices from a power source. The method also includes applying a time domain convolution procedure to the received signal in the time domain that is uniformly sampled. The weighting of sample values in time domain convolution procedure is determined at least partially based on information indicative of the statistical behavior of a corresponding realized sample process. | 02-13-2014 |
| 20140077971 | RAMAN AMPLIFIER SYSTEM AND METHOD WITH INTEGRATED OPTICAL TIME DOMAIN REFLECTOMETER - Raman amplifier systems and methods with an integrated Optical Time Domain Reflectometer (OTDR) for integrated testing functionality include an amplifier system, an OTDR and telemetry subsystem, and a method of operation. The OTDR and telemetry subsystem is configured to operate in an OTDR mode when coupled to a line in port and to operate in a telemetry mode when coupled to a line out port. The OTDR and telemetry subsystem enables on-demand fiber testing while also operating as a telemetry channel that is both a redundant optical service channel (OSC) and provides a mechanism to monitor Raman gain over time. The OTDR and telemetry subsystem minimizes cost and space by sharing major optical and electrical components between the integrated OTDR and other functions on the Raman amplifier. | 03-20-2014 |
| 20140266785 | SYSTEMS AND METHODS FOR PROCESSING AND TRANSMITTING SENSOR DATA - Systems and methods for processing, transmitting and displaying data received from an analyte sensor, such as a glucose sensor, are disclosed. In an embodiment, a method for transmitting data between a first communication device associated with an analyte sensor and a second communication device configured to provide user access to sensor-related information comprises: activating a transceiver of a first communication device associated with an analyte sensor at a first time; and establishing a two-way communication channel with the second communication device; wherein the activating comprises waking the transceiver from a low power sleep mode using a forced wakeup from the second communication device. | 09-18-2014 |
