Patent application number | Description | Published |
20100075812 | DUAL DECK EXERCISE DEVICE - An exercise device employing side-by-side pivotally supported moving surfaces. In one particular example, an exercise device employs a first belt deployed about a front roller and a rear roller and an adjacent second belt deployed about a front roller and a rear roller. The rear of the belts in the area of the rear rollers are pivotally secured and the front of the belts in the area of the front roller are adapted to reciprocate in an up and down motion during use. In some implementations, the moving surfaces include an interconnection structure such that a generally downward movement of one surface is coordinated with a generally upward movement of the other surface. In other implementations, the moving surfaces are operably associated with one or more resistance elements that effect the amount of force required to pivot or actuate the moving surfaces. | 03-25-2010 |
20110312472 | DUAL DECK EXERCISE DEVICE - An exercise device employing side-by-side pivotally supported moving surfaces. In one particular example, an exercise device employs a first belt deployed about a front roller and a rear roller and an adjacent second belt deployed about a front roller and a rear roller. The rear of the belts in the area of the rear rollers are pivotally secured and the front of the belts in the area of the front roller are adapted to reciprocate in an up and down motion during use. In some implementations, the moving surfaces include an interconnection structure such that a generally downward movement of one surface is coordinated with a generally upward movement of the other surface. In other implementations, the moving surfaces are operably associated with one or more resistance elements that effect the amount of force required to pivot or actuate the moving surfaces. | 12-22-2011 |
20130190138 | DUAL DECK EXERCISE DEVICE - An exercise device employing side-by-side pivotally supported moving surfaces. In one particular example, an exercise device employs a first belt deployed about a front roller and a rear roller and an adjacent second belt deployed about a front roller and a rear roller. The rear of the belts in the area of the rear rollers are pivotally secured and the front of the belts in the area of the front roller are adapted to reciprocate in an up and down motion during use. In some implementations, the moving surfaces include an interconnection structure such that a generally downward movement of one surface is coordinated with a generally upward movement of the other surface. In other implementations, the moving surfaces are operably associated with one or more resistance elements that effect the amount of force required to pivot or actuate the moving surfaces. | 07-25-2013 |
20130190139 | DUAL DECK EXERCISE DEVICE - An exercise device employing side-by-side pivotally supported moving surfaces. In one particular example, an exercise device employs a first belt deployed about a front roller and a rear roller and an adjacent second belt deployed about a front roller and a rear roller. The rear of the belts in the area of the rear rollers are pivotally secured and the front of the belts in the area of the front roller are adapted to reciprocate in an up and down motion during use. In some implementations, the moving surfaces include an interconnection structure such that a generally downward movement of one surface is coordinated with a generally upward movement of the other surface. In other implementations, the moving surfaces are operably associated with one or more resistance elements that effect the amount of force required to pivot or actuate the moving surfaces. | 07-25-2013 |
20140336009 | DUAL DECK EXERCISE DEVICE - An exercise device employing side-by-side pivotally supported moving surfaces. In one example, an exercise device employs a first pivotable treadle assembly including a first moving surface, a first foot platform extending outwardly from a side of the first treadle assembly, and a second pivotable treadle assembly including a second moving surface. In some implementations, the exercise device includes a resistance element operably coupled to at least one of the first treadle assembly or the second treadle assembly to resist movement of the at least one of the first treadle assembly or the second treadle assembly. In some implementations, the exercise device includes an adjustment mechanism for adjusting a slope of at least one of the first treadle assembly or the second treadle assembly. | 11-13-2014 |
Patent application number | Description | Published |
20080277469 | Closed-Loop Reel Setup Verification and Traceability - A closed-loop receptacle setup verification and traceability system for use in automatically detecting the presence or absence of a components receptacle at a location is presented, such receptacles comprising components reels, components bearing trays or racks, or other such receptacles for bearing and providing components for components processing and/or manipulation. The system is further for automatically identifying the detected receptacles and validating their use at respective detecting locations based on components parameters identifiably associated therewith. The system is still further for tracking and monitoring such receptacles from one detecting location to another optionally updating components parameters associated therewith as needed. To implement the system, each receptacle should comprise at least one detectable element and each detecting position should comprise at least one reader adapted to detect the detectable element and so determine whether receptacles are present at the detecting locations being monitored. Typically, the closed loop system uses RFID technology, e.g. the detector comprises at least one antenna and the detectable element comprises at least one RF tag. Detector antennae may be multiplexed or operated independently to communicate detection, identification and/or validation data between the detectable elements and the system. | 11-13-2008 |
20100219243 | Closed loop location detection system - A closed loop location detection system for use in monitoring simultaneously the presence or absence of objects in at least two locations, comprises at least one detectable element per location and adapted to be associated with a respective object to be monitored, and at least one detecting device adapted to detect the detectable elements of the objects and so determine whether objects are present in, or absent from, all of the locations being monitored. Means are provided for causing an object to be fed to a location determined to be devoid of objects by the detecting device. Typically, the closed loop location detection system uses RFID technology, e.g. the detection device comprises at least one antenna and the detectable element comprising at least one RF tag. There may be provided one such antenna for each location to be monitored, whereby for a given location, a respective antenna detects the presence or absence of a respective tag thereby determining whether an object is present in this given location. Alternatively, the antenna can be adapted to monitor more than one location, wherein a position tag is associated with each location and means to deactivate the position tag are provided on each object, whereby when the object is fed to a given location, the means to deactivate that are provided on this given object, cause the position tag associated with the given location to stop being detected by the antenna thereby determining that a specific object has been fed to a specific location. | 09-02-2010 |
Patent application number | Description | Published |
20100172238 | SYSTEM AND METHOD FOR ETHERNET PROTECTION SWITCHING IN A PROVIDER BACKBONE BRIDGING TRAFFIC ENGINEERING DOMAIN - A system and method of providing Ethernet protection switching in a PBB-TE Domain. Two PBB-TE trunks are established between a first B-component and a second B-component. Each trunk includes two unidirectional Ethernet Switching Paths (ESPs), each associated with a possibly different VLAN identifier. Data traffic is mapped onto the first PBB-TE trunk, where the first PBB-TE trunk corresponds to a working entity and the second PBB-TE trunk corresponds to a backup protection entity. Data traffic is sent via a first ESP of the first trunk associated with a first VID and a second ESP of the first trunk associated with a second VID. The two PBB-TE trunks are monitored for faults. Upon detecting a fault on one of the PBB-TE trunks, data traffic is remapped onto the other PBB-TE trunk via a third ESP associated with a third VID and a fourth ESP associated with a fourth VID. | 07-08-2010 |
20100290345 | GMPLS BASED OAM PROVISIONING - A method and network are described herein for provisioning Operations, Administration, and Maintenance (OAM) entities for a connection when setting-up the connection between an ingress edge node and an egress edge node. | 11-18-2010 |
20120120809 | GMPLS BASED OAM PROVISIONING - A method and network are described herein for provisioning Operations, Administration, and Maintenance (OAM) entities for a connection when setting-up the connection between an ingress edge node and an egress edge node. | 05-17-2012 |
20120207014 | SYSTEM AND METHOD FOR ETHERNET PROTECTION SWITCHING IN A PROVIDER BACKBONE BRIDGING TRAFFIC ENGINEERING DOMAIN - A method of providing protection switching on a backbone network includes configuring a service instance table for a first port of a first bridge. The service instance table includes a Virtual Local Access Network (VLAN) identifier entry for one or more service instances. The method also includes mapping data traffic received at the first bridge onto a first trunk by setting a VLAN identifier entry for a first service instance and transmitting data traffic to a second bridge on the first trunk in accordance with the mapping and monitoring the first trunk for faults by exchanging continuity check messages with the second bridge over the first trunk. The method additionally includes, upon detecting a fault, remapping data traffic for the first service instance by changing the VLAN identifier entry for the first service instance and transmitting data traffic to the second bridge in accordance with the remapping. | 08-16-2012 |
Patent application number | Description | Published |
20080228932 | APPLYING POLICIES FOR MANAGING A SERVICE FLOW - A method and an access domain node identify and manage a type of service offered by a service provider to user domains. A service template is prepared by the service provider, comprising an address of a server and a protocol identifier, as well as policies for controlling traffic for the service. Upon set up of a connection between a user domain and the service provider, an address of the user domain is added to the service template to produce a service flow management set. Every data packet exchanged between the user domain and the server, in either direction, is related to a service data flow for a given service type by checking for a match between a source address, a destination address, and a protocol type contained therein, with an appropriate service type. Policies from the service flow management set are used to manage the flow of data packets. | 09-18-2008 |
20080235379 | NETWORK RESOURCE NEGOTIATION - Systems and methods according to these exemplary embodiments provide for methods and systems for negotiating resources in a communication system. One exemplary method includes transmitting, by a service manager, a request for a service, wherein the service request either explicitly provides, or implicitly refers to, a list of a plurality of service options for providing the service. Additionally, a resource manage can receive the transmission request from a service manager and process the request based upon either the explicitly transmitted list of service options or the reference to a list of service options. | 09-25-2008 |
20090097492 | SUPPORT OF TRIPLE PLAY SERVICES IN USER DEVICES - Several services offered by distinct service providers can be accessed from a single user device, through one or more gateways. To ensure quality of service control, each service provider allocates a distinct address to the user device. Distinct forwarding information bases and service mappings are defined at the user device, comprising one such forwarding information base for each service provider and one service mapping for each service type offered by a given service provider. The separate addresses allocated to the user device are related to the separate service mappings. Distinct virtual local area networks (VLANs) are defined, each containing one of the forwarding information base and one of the service mappings. Tags added to packets by the gateways and arriving at the user device are used to link the packets to the proper service provider and to the proper service type. | 04-16-2009 |