Abstract: A registration card or similar document (such as a boarding pass) may be used to onboard participants of health services programs. A data structure may store a plurality of unique identification codes linked to data elements providing personally identifiable information of participants. A document may then be generated to include an indicium, such as a QR code and/or bar code, for indicating the unique identification code for the participant, a personal identifier and a logistics detail for a biometric event. Upon receiving the unique identification code from the document, such as at the biometric event, the data element in the data structure may then be linked to an electronic medical record of the participant.

Abstract: A registration card or similar document (such as a boarding pass) may be used to onboard participants of health services programs. A data structure may store a plurality of unique identification codes linked to data elements providing personally identifiable information of participants. A document may then be generated to include an indicium, such as a QR code and/or bar code, for indicating the unique identification code for the participant, a personal identifier and a logistics detail for a biometric event. Upon receiving the unique identification code from the document, such as at the biometric event, the data element in the data structure may then be linked to an electronic medical record of the participant.

Abstract: A fall restraint system having a retractor assembly including a housing assembly that is mounted onto an aerial apparatus. A base pulley assembly is also mounted onto the aerial apparatus. A cable having first and second ends is partially stored within the housing assembly, whereby the first end is fixed within the housing assembly. The second end is threaded around the base pulley assembly and is also fixed onto the aerial apparatus. Tensioning means keep a predetermined tension on the cable while the aerial apparatus extends from a retracted position to an extended position and vice-versa.

Abstract: A fall restraint system having a retractor assembly including a housing assembly that is mounted onto an aerial apparatus. A base pulley assembly is also mounted onto the aerial apparatus. A cable having first and second ends is partially stored within the housing assembly, whereby the first end is fixed within the housing assembly. The second end is threaded around the base pulley assembly and is also fixed onto the aerial apparatus. Tensioning means keep a predetermined tension on the cable while the aerial apparatus extends from a retracted position to an extended position and vice-versa.

Abstract: A computer controlled method that enables a mailer to control when recipients will receive mail mailed by the mailer. The method involves receiving a mailing composition, the desired mailing in home delivery date ranges and carrier schedules; utilizing a prediction model built from historical delivery data to predict when the quantities of mail will arrive for the mailing; and using the prediction model to determine preferred induction dates for the mailing.

Abstract: A computer method that determines the best day of the week for a recipient to receive a mail piece that is part of a mailing campaign. The method includes by applying a unique code to each mail piece in the mailing; tracking the mail piece to determine when the mail piece is received by a recipient; correlating the recipient's response to information contained in the mail piece with the day of the week when the mail piece is delivered to the recipient.

Abstract: A method utilizing a computer to predict what volumes of mail will arrive at a given destination on a given date. The method is accomplished by: utilizing the composition of a mailing campaign that contains a plurality of mailing shipments that contain a plurality of containers containing a plurality of mail pieces; making a prediction curve for each container when the shipment is inducted at a carrier facility; and building a mailing campaign prediction based upon the container predictions; wherein each shipment prediction curve is added to the mailing campaign prediction at the date when the shipment is inducted at the carrier facility.

Abstract: A computer method that is used to control call center volumes for a range of dates. The method involves utilizing previous mailing campaign and call center response data to determine when the mail arrives in the home and when a call center is contacted in response to information in the mail; predicting the call center volumes based initially on the previous campaign and call center response data and as the mailing campaign and call center responses progresses updating call center predictions based on current mailing campaign data; and determining in home mail volumes needed to control call center volumes.

Abstract: A computer method that is used to predict when recipients of mail pieces will contact a call center in response to information contained in the mail pieces. The method involves, utilizing previous mailing campaign data to determine when the mail piece arrives in the home and when a call center is contacted in response to information in the mail piece; and predicting call volumes based initially on previous campaign data and as the mailing campaign progresses updating call center predictions based on current mailing campaign data.

Abstract: An ultrasonic real-time inspection method which is user-friendly in an interactive environment to provide ease of operation, as well as a combination of consistency, thoroughness, and speed of operation in flaw detection not achievable by other methods. The method offers significantly increased pattern recognition capability, which provides greater automation potential and reduced missed detection and false alarm rates.

Abstract: Systems and methods for consistent deployment of sensors for both physical and virtual objects in a context aware environment for responsive environments are described. A method and apparatus that supports user interactions with both virtual and physical objects wherein any type of object can be explicitly instrumented with a sensor, either virtual or physical. User actions are sensed through these sensors and responses can be determined consistently, regardless of whether the object is physical or virtual.

Abstract: Systems and methods for determining location by implication are described. A responsive environment includes a location determination method that operates in an area that is only partially instrumented with location-sensing devices. Some of the with location-sensing devices sense location ambiguously. For example, a location-sensing device may be deployed at a boundary between two target objects or areas of interest. The location of the target object, as reported by such devices, is considered ambiguous. While the object or person is known to be in a space, it is not clear which specific space. The location of ambiguously located objects can be disambiguated based on changes in the location of other objects. For example, if a document is placed on a shelf in an office, such action strongly implies that someone is in the office. Therefore, if a person is known to potentially be in the office or the outside hallway, the person”s location is changed to be in the office.

Abstract: Systems and methods for delayed function activation in a responsive environment are described. A responsive environment includes an intermediary system and notification manager to determine when a responsive environment will launch an application triggered by a sensed event. The environment includes sensor components and transparent software components that reside wholly within the environment for providing responsiveness. The environment also includes interactive software components that give users the means to provide input and/or experience output. Since changes to the interaction components may disrupt the user by requiring the user”s attention when it is not convenient, the system helps the user manage the responsive environment by using an application/function delay technique. The environment uses intelligence and notification mechanism to determine what might be useful and primes the apparatus to provide that functionality. However, the user actually initiates the execution of that function.

Abstract: An ultrasonic real-time inspection method which is user-friendly in an interactive environment to provide ease of operation, as well as a combination of consistency, thoroughness, and speed of operation in flaw detection not achievable by other methods. The method offers significantly increased pattern recognition capability, which provides greater automation potential and reduced missed detection and false alarm rates.