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Falk, MD
Kirk Falk, Severna Park, MD US
| Patent application number | Description | Published |
|---|---|---|
| 20100121575 | Systems and methods for aerial system collision avoidance - A ground-based data collection, fusion, analysis and communication system and method are provided to effect collision avoidance for unmanned aerial systems. These systems and methods levy minimal demands on the very strict payload size, weight, and power constraints of many unmanned aerial system platforms by providing an off-board, rather than onboard, sensor system and data fusion capability supporting data acquisition and data fusion from a full spectrum of available sensors. These systems and methods include a capability for high-speed all-source data fusion and analysis with an objective of providing advisory information to a remotely-located pilot of an unmanned aerial system in a timely enough manner for the pilot to effect evasive maneuvers in situations to avoid collision between the unmanned aerial system and conflicting aerial traffic. Additionally, evasive maneuvering commands may be provided directly to an unmanned aerial system based on collected, fused and analyzed data from multiple sources in order to effect autonomous collision avoidance maneuvering within the unmanned aerial system. | 05-13-2010 |
Robert Falk, Takoma Park, MD US
| Patent application number | Description | Published |
|---|---|---|
| 20090202972 | Bi-Directional Communication of Simulation Information - Systems, methods, and associated software for providing a virtual reality experience for a user, particularly a virtual training experience, are described herein. A server associated with a virtual training system according to one embodiment, among others, comprises memory and a network interface. The memory is configured to store virtual training software and a simulation variations database. The virtual training software comprises training simulation logic adapted to provide a virtual training experience. The simulation variations database comprises data associated with preset variations to the virtual training experience. The network interface is configured to communicate with a remote client device within a network and is further configured to receive a first set of information from the client device associated with the virtual training software. Also, the network interface is further configured to transmit a second set of information to the client device associated with the virtual training software. | 08-13-2009 |
Robert B. Falk, Takoma Park, MD US
| Patent application number | Description | Published |
|---|---|---|
| 20100104162 | Systems And Methods For Ultrasound Simulation Using Depth Peeling - Systems and methods for ultrasound simulation using depth peeling are disclosed. In one disclosed embodiment, a method includes the steps of receiving a sensor signal including a position and an orientation of a simulated ultrasound device, the position and orientation associated with a virtual physical environment comprising a first virtual object; determining a first peel associated with the first virtual object; determining a second peel associated with the first virtual object; determining a first characteristic of a pixel located between the first peel and the second peel; generating a display signal based on the first characteristic, the display signal configured to cause a visual display of the virtual physical environment; and outputting the display signal to a display device. | 04-29-2010 |
Steven Falk, Baltimore, MD US
| Patent application number | Description | Published |
|---|---|---|
| 20100127866 | CONTROLLING AN ALARM STATE BASED ON THE PRESENCE OR ABSENCE OF A CAREGIVER IN A PATIENT'S ROOM - Systems and methods for controlling an alarm state, such as volume, based on the presence or absence of a caregiver in a patient's room. More specifically, a local sound producing device provides an audible alarm within a room when a caregiver is in the room, while a remote sound producing device provides an audible alarm external of the room when the caregiver is not in the room. Accordingly, volume levels of the sound producing devices depend on the sensed presence or absence of the caregiver within the room. For example, when the caregiver leaves the room, the local sound producing device is deactivated and/or the remote sound producing device is activated, thereby allowing the patient to enjoy a more relaxed environment within the room, yet still continue to be monitored. Conversely, when the caregiver enters the room, the local sound producing device is activated and/or the remote sound producing device is deactivated, thereby allowing the caregiver to monitor the patient when within the room, yet allow decreased monitoring external of the room. | 05-27-2010 |
Steven M. Falk, Baltimore, MD US
| Patent application number | Description | Published |
|---|---|---|
| 20090240098 | Patient carestation - A patient carestation for providing care to a patient including at least one environmental sensor sensing information concerning the environment surrounding the patient and providing electronic signals indicative of that environment. There are also physiological sensors sensing information relating to physiological conditions of the patient other than skin temperature and providing electronic signals indicative of physiological conditions of the patient. There may also be therapeutic sensors providing data based on therapy administered by peripheral apparatus and an input receiving patient information. A signal processor receives the signals from the physiological sensors, the environmental sensor, the therapeutic sensor and the patient information input and combines those signals into an integrated combination of signals for use by the caregiver. The integrated combination of signals can be used in a smart alarm or to generally appraise the caregiver at a central location as to the status of the patient. | 09-24-2009 |
| 20100024168 | Caster locking system for medical transport cart - A transport cart for attaching to a patient care apparatus having a locking system that converts the forward caster of the transport cart from an omni-directional pivotable caster to a fixed directional device by restraining its pivoting about a vertical axis. The forward caster is located at about the center of the footprint of the combined transport cart/patient care apparatus and the fixed directional movement of the forward caster provides stability in moving the combined apparatus. The locking mechanism may be internal to the caster or may have a pair of pivotable lock arms that contact the patient care apparatus as the two are brought together and the pivotable lock arms pivot to a locked position where they sandwich the caster therebetween to restrain its ability to pivot. The locking mechanism automatically or manually releases the forward caster to again freely pivot when the transport cart/patient care apparatus are separated. | 02-04-2010 |
| 20110179625 | Caster locking system for medical transport cart - A transport cart for attaching to a patient care apparatus having a locking system that converts the forward caster of the transport cart from an omni-directional pivotable caster to a fixed directional device by restraining its pivoting about a vertical axis. The forward caster is located at about the center of the footprint of the combined transport cart/patient care apparatus and the fixed directional movement of the forward caster provides stability in moving the combined apparatus. The locking mechanism may be internal to the caster or may have a pair of pivotable lock arms that contact the patient care apparatus as the two are brought together and the pivotable lock arms pivot to a locked position where they sandwich the caster therebetween to restrain its ability to pivot. The locking mechanism automatically or manually releases the forward caster to again freely pivot when the transport cart/patient care apparatus are separated. | 07-28-2011 |
Steven Mitchell Falk, Baltimore, MD US
| Patent application number | Description | Published |
|---|---|---|
| 20090185772 | Fiberoptic patient health multi-parameter monitoring devices and system - A patient monitoring system includes a plurality of diffraction gratings integrated along the length of an optical fiber, wherein the optical fiber and each grating are together configured to alter either the effective refractive index or grating periodicity of the respective grating at its corresponding location along the fiber in response to at least one desired external stimulus. | 07-23-2009 |
Steven Mitchell Falk, Laurel, MD US
| Patent application number | Description | Published |
|---|---|---|
| 20120078034 | INFANT WARMER - An infant warmer includes an infant enclosure defining an infant compartment, and a heating system pneumatically coupled with the infant compartment. The heating system includes a heater configured to selectively transfer heat to the infant compartment, and a thermal storage device configured to store heat from the heater and to selectively transfer said stored heat to the infant compartment. The infant warmer also includes a controller operatively connected to the heating system. The controller is configured to regulate the transfer of heat from the thermal storage device such that a target temperature is maintained within the infant compartment. | 03-29-2012 |