Patent application number | Description | Published |
20090012818 | DISPENSING MEDICATION AND VERIFYING PROPER MEDICATION USE - Methods, systems, computer program products, and data structures are used for dispensing medication and verifying proper medication use. Medication of a purported type and dosage is dispensed into an individualized patient medication dispensing cup. The cup includes a bar code that associates a designated patient with the dispensed medication. The cup is placed on a network connected scale. Through network communication the scale accesses medication and patient information. From the accessed information (e.g., medication weight data), the scale determines if it is appropriate to administer the dispensed medication to the designated patient and visual indicates the determination. When it is appropriate to administer the medication, it is transported on a secure cart to a patient location. Sensors (e.g., RFID or ultrasound) detect if the dispensed medication is prescribed for the patient at the patient location. When a medication error is detected at any time during dispensing or administration of medication, staff members are alerted. | 01-08-2009 |
20090044332 | Height adjustable patient support platforms - The present invention relates to systems and methods for height adjusting patient support platforms, such as, for example, of a bed (e.g., the mattress support platform of a standard hospital bed with side rails), gurney, couch, chair, or recliner, to which a patient may be confined. The systems and methods are designed to lower the height of a patient support platform at least closer (and essentially all the way) to floor level in a relatively quick and controlled manner to reduce fall distances. Lowering the height of a patient support platform corresponding reduces the likelihood and significance of patient injuries resulting from falls when a patient attempts to exit the patient support platform. | 02-19-2009 |
20090044334 | AUTOMATICALLY ADJUSTING PATIENT PLATFORM SUPPORT HEIGHT IN RESPONSE TO PATIENT RELATED EVENTS - The present invention relates to systems and methods for automatically adjusting patient platform support height in response to patient related events. Sensor data is accessed from sensors that are monitoring a patient resting on a support platform that is a specified height above floor level. It is detected from the accessed input data that the patient is attempting to exit the patient support platform. The height of the support platform is lowered from the specified height to a lower height to reduce the potential fall distance of the patient in response to detecting that the patient is attempting to exit the support platform. In some embodiments, a support platform is rapidly lowered to essentially floor level in a controlled manner. | 02-19-2009 |
20090070134 | TRACKING COMMUNICABLE PATHOGENS - Methods, systems, computer program products, and data structures are used for tracking communicable pathogens in a healthcare facility. An individual is digitally tagged as been at risk for spreading communicable pathogens upon coming into contact with another individually that is digitally tagged as been at risk for spreading communicable pathogens. Digitally tagged individuals can be patients that are diagnosed with a communicable disease, individuals that come into contact with patients diagnosed with a communicable disease, and individuals that come into contact with other individuals (e.g., that through a chain of one or more other contacts) have been in contact with patients diagnosed with a communicable disease. Staff members and visitors digitally tagged through contact can perform appropriate hygiene procedures to remove their digitally tagged status. A system sensor can be used to track individual contacts and activation of hygiene equipment. | 03-12-2009 |
20090119843 | MONITORING PATIENT SUPPORT EXITING AND INITIATING RESPONSE - The present invention relates to systems and methods for monitoring patient support exiting and initiating a response. Movement data is accessed from sensors (e.g., cameras) that are monitoring a patient resting on a support platform. A motion capture pattern summary is generated from the accessed movement data. The motion capture pattern summary is compared to one or more movement pattern data sets in a library of movement pattern data sets. It is determined that the motion capture pattern summary is sufficiently similar to one of the one or more movement pattern data sets in the library of movement pattern data sets. From the determined similarity it is determined that the patient is attempting to exit the support platform. Remedial measures are initiated to prevent the detected platform support exiting attempt. | 05-14-2009 |
20100302064 | METHOD FOR DEACTIVATING A UTILITY METER - In one aspect, the present disclosure relates to a method to deactivate a utility meter. In one exemplary embodiment, the method includes the step of reading a first status indicator associated with the utility meter in a memory of a utility meter management host processor, and the step of determining if the status of the utility meter is active. The method further includes the step of sending a first deactivation request message from the utility meter management host processor to an on-premise processor, and the step of deactivating the utility meter. The method further includes the step of sending a first acknowledgement deactivation message from the on-premise processor to the utility meter management host processor, and the step of recording, in the memory of the utility meter management host processor, a date and an activation status indicator associated with the utility meter. | 12-02-2010 |
20100305771 | SYSTEM FOR CONTROLLING A POWER LOAD - In one aspect, the present disclosure relates to a system for controlling a power load. In one exemplary embodiment, the system includes a processor capable of receiving a signal from a sensor, where the signal is related to an ambient temperature of the sensor. The processor is further capable of generating a control signal. The system further includes an 802.11X-based transceiver that is operatively connected to the processor and capable of communicating data received from an antenna to the processor. The system further includes a switch that is operatively connected to the processor, receiving the control signal from the processor, for switch controlling activation of a power load. | 12-02-2010 |
20100305772 | SYSTEM FOR MANAGING POWER LOADS - In one aspect, the disclosure relates to a system for managing power loads. In one exemplary embodiment, the system includes a management host processor storing a plurality of records associated with a plurality of power meters, that is operatively connected to a distribution network capable of sending and receiving messages of a first protocol. An on-premise processor is co-located with at least one of the plurality of power meters, and is operatively connected to the distribution network, for receiving messages of the first protocol from the management host processor. The on-premise processor includes an 802.11X-based wireless communications link interface for sending and receiving messages of a second protocol. A power load controller is associated with the power load and operatively communicates with the on-premise processor using 802.11X-based wireless communications to send and receive messages of the second protocol from the on-premise processor. | 12-02-2010 |
20100305891 | METHODS FOR READING DATA IN A UTILITY METER - In one aspect, the present disclosure relates to a method to read energy-related data in a power meter. In one exemplary embodiment, the method includes the step of sending a request message to an on-premise processor, directing the on-premise processor to read energy-related data from a power meter, using an 802.11 X-based wireless protocol. The method further includes the step of retrieving energy-related data stored in a memory of the power meter by the on-premise processor, using the 802.11 X-based wireless protocol, and the step of receiving a response message sent at a host processor, communicated from the on-premise processor, using the 802.11 X wireless protocol. The method further includes the step of recording the energy related data in a data structure in memory of the host processor, along with a date and time information. | 12-02-2010 |