| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 340300200 | Synchronization | 6 |
| 20090066475 | RADIOGRAPHIC APPARATUS AND CONTROL METHOD THEREFOR - If image data is input to an image processor (step S | 03-12-2009 |
| 20090134970 | IN-VEHICLE ELECTRONIC CONTROL APPARATUS HAVING MONITORING CONTROL CIRCUIT - An in-vehicle electronic control apparatus, having a monitoring control circuit, according to the present invention is configured in such a way that serial interface circuits | 05-28-2009 |
| 20110006876 | COORDINATION OF CONTROL COMMANDS IN A MEDICAL DEVICE SYSTEM HAVING AT LEAST ONE THERAPY DELIVERY DEVICE AND AT LEAST ONE WIRELESS CONTROLLER DEVICE - A medical device system includes at least one controllable patient-worn or patient-carried medical device, and a plurality of controller devices that are capable of independently controlling features or functions of the patient medical device. Control commands and other data is wirelessly communicated among the patient medical device and the multiple controller devices. A number of techniques, protocols, and other measures are provided to coordinate wireless communication between the various devices in a medical device system. These control command coordination processes address situations where conflicting, redundant, or concurrent control commands might be independently issued by the multiple controller devices. | 01-13-2011 |
| 20120212320 | Motor vehicle light synchronization system - A synchronization system for motor vehicles which enable external blinking or flashing lights of one or a number of vehicles to be synchronized. Among a group of motor vehicle, such as those produced by a given motor vehicle manufacturer, when the operators of the vehicles activate the turn signals or emergency flashers, they blink in unison with one another. External timing signals are used to establish the phasing of the flashing or blinking oscillations. | 08-23-2012 |
| 20140028436 | OBJECT DETECTION SYSTEM - In a projector or an optical receiver, a master device produces pieces of definition information that determines timings of detection processes in the device including its own device and transmits the pieces of definition information to the slave device. The master device simultaneously transmits commands to require operations of internal timers to be synchronized with each other to the other slave devices in response to elapse of a time corresponding to a period in which a circulating period of the detection processes of the sensors proceeds by a predetermined cycle. Each of the slave devices corrects the timer in response to the command, and determines a timing at which a detection process should be performed with reference to a time point for correction on the basis of the definition information matched with its own device to execute the detection process. | 01-30-2014 |
| 340300210 | Time slot or packet | 1 |
| 20120025944 | Automated Timing Systems and Methods Having Multiple Time Event Recorders and an Integrated User Time Entry Interface - Systems and methods for timing of a passing of an object past a monitored location where the monitored location is being monitored by timing system having at least one automated object detection system for wirelessly detecting the passing of the object at the monitored location. The system comprises a remote entry computer system having a processor for executing computer executable instructions, a clock for determining a present time, a user interface for receiving user input data, a memory being a computer readable medium storing the computer executable instructions and the received user input data, and a communications interface for communicating with the timing system. The system includes a computer readable medium including the computer executable instructions for performing the method of receiving the user input data at the user interface, receiving from the clock a user data input time associated with the receipt of the received user input data at the user interface, and storing the received user input data and the user data input time in the memory. The computer executable instructions also include the method of creating a received user data message including the stored user input data and a time value as a datagram message and transmitting the user data message over the communications interface to the timing system. | 02-02-2012 |
