Abstract: A consumer product having a sensor for controlling the operation of the consumer product, a system and method including the consumer product and a sensor are provided. The system and method including a central communication unit capable of receiving incoming signals and sending outgoing instructions from the consumer product and sensor. The central communication unit communicably connected with a memory configured to store an algorithm. The sensor has a cross-linked carbon nanotube network comprising: a plurality of carbon nanotubes; and at least one linker that covalently links adjacent carbon nanotubes. The algorithm controls the consumer product based on incoming signals sent from the sensor to the central communication unit.

Abstract: A consumer product having a sensor for controlling the operation of the consumer product, a system and method including the consumer product and a sensor are provided. The system and method including a central communication unit capable of receiving incoming signals and sending outgoing instructions from the consumer product and sensor. The central communication unit communicably connected with a memory configured to store an algorithm. The sensor has a cross-linked carbon nanotube network comprising: a plurality of carbon nanotubes; and at least one linker that covalently links adjacent carbon nanotubes. The algorithm controls the consumer product based on incoming signals sent from the sensor to the central communication unit.

Abstract: A computer-implemented method of connecting user equipments, UEs, to coordinate a transport request is disclosed. The method comprises receiving a message from a first UE comprising a first user identification, ID, a destination and a specified future time; sending a message to a plurality of second UEs comprising the first user ID, the destination and the specified future time; receiving a response from a subset of the plurality of second UEs indicating an acceptance; receiving or determining at least one pick up location; determining a set of second UEs corresponding to a set of proposed riders from the subset of the plurality of second UEs; sending a trip confirmation message to the set of second UEs corresponding to the set of proposed riders; calculating a route from a driver starting location to the destination by way of the at least one pick up location; and sending the calculated route to the first UE.

Abstract: A method of electronic payment for data transferred across a computer network from a server to a client by means of at least one router which forwards data. An electronic data request is sent from the client to the server via one or more routers. The server then sends electronic data to the client via one or more routers in response to said electronic data request. The electronic data is sent via a packet transfer protocol, in which each packet of data has associated with it a data field containing a value, which represents the commercial value of the requested data. Each router receives an incoming data packet, reads the value in the data field associated with the incoming data packet, calculates a new value based on the read value and the cost of forwarding the data packet, and forwards the data packet with the new value in the associated data field.

Abstract: A document server residing on a network behind a firewall provides secure access to documents or services residing thereon. A first user outside the firewall communicates with the document server over an established first secure session to generate a token in a database of tokens on the document server. The first user digitally signs the public key of a second user and an identifier of the token. The first user transmits a URL token to the second user that identifies the location of the document server and the token identifier. When the second user outside the firewall redeems the URL token at the document server, the document server and the second user establish a second secure session. The document server authenticates the URL token against the second secure session before providing the second user with access to the document or service.

Abstract: A document server residing on a network behind a firewall provides secure access to documents or services residing thereon. A first user outside the firewall communicates with the document server over an established first secure session to generate a token in a database of tokens on the document server. The first user digitally signs the public key of a second user and an identifier of the token. The first user transmits a URL token to the second user that identifies the location of the document server and the token identifier. When the second user outside the firewall redeems the URL token at the document server, the document server and the second user establish a second secure session. The document server authenticates the URL token against the second secure session before providing the second user with access to the document or service.

Abstract: A system is presented for transmitting document references or tokens between users of integrated wireless and wire-based communication services. The system includes workstations, files servers, printers and other devices coupled to a wire-based network. Mobile computing devices are coupled to the wire-based network through either IR (infrared) or RF (radio) transceiver gateways. Each mobile computing device appears to hold a user's collection of documents: the device is programmed to receive, transmit, and store document tokens. The system includes a token-enabled document server that uses digital signatures to provide secure transfer of document tokens between users of the mobile computing devices and email clients. The token-enabled document server operates independent of the identity of the holder of the document token. Only the issuer of the document token needs be registered with the signature based document server to properly authenticate document tokens.

Abstract: Non token-enabled devices are token-enabled using a token-enabler unit for operation in a distributed environment with mobile computing devices that reference documents using tokens. The mobile computing device is used to configure the token-enabler unit with identifying information of the non token-enabled device. The token-enabler unit, which is not operatively coupled to the non token-enabled device, is either fixedly attached or proximately located near the non token-enabled devices. In operation, mobile computing devices query the token-enabler unit for identifying information of the non token-enabled device, thereby seamlessly integrating the operation of non token-enabled devices with token-enabled devices.

Abstract: A system is presented for transmitting document references or tokens between users of integrated wireless and wire-based communication services. The system includes workstations, files servers, printers and other devices coupled to a wire-based network. Mobile computing devices are coupled to the wire-based network through either IR (infrared) or RF (radio) transceiver gateways. Each mobile computing device appears to hold a user's collection of documents: the device is programmed to receive, transmit, and store document tokens. The system includes a token-enabled document server that uses digital signatures to provide secure transfer of document tokens between users of the mobile computing devices and email clients. The token-enabled document server operates independent of the identity of the holder of the document token. Only the issuer of the document token needs be registered with the signature based document server to properly authenticate document tokens.

Abstract: A method of electronic payment for data transferred across a computer network from a server [(26)] to a client [(20)] by means of at least one router [(22, 24)] which forwards data. An electronic data request is sent from the client to the server via one or more routers. The server [(26)] then sends electronic data [(8)] to the client [(20)] via one or more routers in response to said electronic data request. The electronic data is sent via a packet transfer protocol, in which each packet of data [(10)] has associated with it a data field [(5)] containing a [value] value, which represents the commercial value of the requested data [(8)].

Abstract: A system is presented for transmitting document references or tokens between users of integrated wireless and wire-based communication services. The system includes workstations, files servers, printers and other devices coupled to a wire-based network. Mobile computing devices are coupled to the wire-based network through either IR (infrared) or RF (radio) transceiver gateways. Each mobile computing device appears to hold a user's collection of documents: the device is programmed to receive, transmit, and store document tokens. The system includes a token-enabled document server that uses digital signatures to provide secure transfer of document tokens between users of the mobile computing devices and email clients. The token-enabled document server operates independent of the identity of the holder of the document token. Only the issuer of the document token needs be registered with the signature based document server to properly authenticate document tokens.