Abstract: According to one aspect of the invention, packets of a first type within a first data flow are routed to a destination through a packet core network. In response to a detection that packets of a second type are to be routed while routing the first data flow, a second data flow is created which is a sub-flow of the first data flow. Packets of the second type are routed via the second data flow to the destination without traversing the packet core network, while packets of the first type are routed via the first data flow traversing the packet core network.

Abstract: The present invention generally relates to methods of constructing liquid bridges and methods of forming predetermined combinations of samples using liquid bridges.

Abstract: Techniques for inserting a new node into a communications path of existing nodes of a 3GPP network are described herein. According to one embodiment, state information is captured within a transport protocol layer of a first node. The state information pertains to an existing communications session between a second node and a third node, while the first node routing packets exchanged between the second and third nodes via the existing communications session. The transport protocol layer of the first node is then configured using the captured state information to enable the transport protocol layer of the first node to independently communicate with a transport protocol layer of the second node and the third node respectively without terminating the existing communications session.

Abstract: According to one aspect, a mobility gateway device (MGW) receives a request from a wireless local area network (WLAN) controller of a WLAN for accessing the Internet or a packet core network, where the request is originated from a user equipment communicatively coupled to the WLAN. In response to the request, the MGW is configured to determine whether there is an active session associated with the UE over a wireless wide area network (WWAN). If so, the MGW assigns an IP address to the UE that was assigned to the UE during the active session of the WWAN. The assigned IP address is used by the UE to access the Internet or the packet core network over the WLAN.

Abstract: Techniques for bypassing a packet core network for Internet bound traffic from user equipment (UE) via a RAN are described herein. According to one embodiment, it is determined whether a packet of data is destined for the Internet, in response to receiving the packet from a radio network controller (RNC) of a radio access network (RAN). The packet is originated from user equipment (UE) over the RAN. The packet is routed directly to the Internet without sending the packet to an SGSN (serving GPRS support node) of a packet core network, if the packet is destined to the Internet. Other methods and apparatuses are also described.

Abstract: A bridge comprises a first inlet port, a second inlet port, an outlet port, and a chamber for silicone oil. The oil is density-matched with the reactor droplets such that a neutrally buoyant environment is created within the chamber. The oil within the chamber is continuously replenished by the oil separating the reactor droplets. This causes the droplets to assume a stable capillary-suspended spherical form upon entering the chamber. The spherical shape grows until large enough to span the gap between the ports, forming an axisymmetric liquid bridge. The introduction of a second droplet from the second inlet port causes the formation of an unstable funicular bridge that quickly ruptures from the, finer, second inlet port, and the droplets combine at the liquid bridge. In another embodiment, a droplet segments into smaller droplets which bridge the gap between the inlet and outlet ports.

Abstract: A first packet is received at a network element from an E-UTRAN Node B (eNB) of an E-UTRAN access network via a secured communications tunnel of a secured connection, where the first packet encapsulates a second packet therein. It is determined whether the network element serves both a security gateway functionality and a serving gateway functionality of a core packet network based on the first packet and the second packet. The network element negotiates with the eNB to switch further communications from a tunnel mode to a transport mode of the secured connection if it is determined that the network element serves both the security gateway functionality and the serving gateway functionality. Thereafter, the network element exchanges further packets with the eNB via the transport mode of the secured connection after the eNB switches from the tunnel mode to the transport mode.

Abstract: A network element is configured to receive a first packet from a first eNodeB (eNB) of the packet network via a first secured X2 link. The network element decrypts the first packet to reveal a second packet encapsulated within the first packet. The network element determines a second secured X2 link associated with a second eNB as an intended recipient of the second packet. The network element encrypts the second packet to generate a third packet and transmits the third packet to the second eNB via the second secured X2 link.

Abstract: A type of network traffic associated with a packet received from a remote node of an access network is determined. A first interface logic routes the packet to a radio network controller (RNC) if the packet is received from an Internet protocol-basestation (IP-BTS) access network and destined to a packet core network. The RNC forwards the packet to a component of the packet core network. A second interface logic routes the packet to the component of the packet core network, including aggregating other packets of the same type received from other remote nodes, if the packet is received from a femto cell and destined to the packet core network. A breakout logic routes the packet to a destination of the Internet directly to enable the packet to reach the Internet without having to route the packet to the component of the packet core network, if the packet is destined to the Internet.

Abstract: A bridge (30) comprises a first inlet port (31) at the end of a capillary, a narrower second inlet port (32) which is an end of a capillary, an outlet port (33) which is an end of a capillary, and a chamber (34) for silicone oil. The oil is density-matched with the reactor droplets such that a neutrally buoyant environment is created within the chamber (34). The oil within the chamber is continuously replenished by the oil separating the reactor droplets. This causes the droplets to assume a stable capillary-suspended spherical form upon entering the chamber (34). The spherical shape grows until large enough to span the gap between the ports, forming an axisymmetric liquid bridge. The introduction of a second droplet from the second inlet port (32) causes the formation of an unstable funicular bridge that quickly ruptures from the, finer, second inlet port (32), and the droplets combine at the liquid bridge (30).

Abstract: A method is described that involves performing the following at an offload network gateway: receiving a RELOCATION_REQUIRED message from an RNC; recognizing that the RELOCATION— REQUIRED message pertains to a roaming device having a live session with a network that the offload network gateway acts as a gateway to in order to offload data traffic from the GPRS network; and, adding information specific to the session to the RELOCATION— REQUIRED message. A method is also described that includes performing the following at an offload network gateway: receiving a RELOCATION _REQUEST message; inspecting the RELOCATION_REQUEST message for information specific to a roaming device's live session with a network that the offload network gateway acts as a gateway to in order to offload data traffic from a GPRS network; and, in response to identifying the information within the RELOCATION— REQUEST message, extracting the information and using the information to continue the session for the roaming device.

Abstract: According to one aspect, a mobility gateway device (MGW) receives a request from a wireless local area network (WLAN) controller of a WLAN for accessing the Internet or a packet core network, where the request is originated from a user equipment communicatively coupled to the WLAN. In response to the request, the MGW is configured to determine whether there is an active session associated with the UE over a wireless wide area network (WWAN). If so, the MGW assigns an IP address to the UE that was assigned to the UE during the active session of the WWAN. The assigned IP address is used by the UE to access the Internet or the packet core network over the WLAN.

Abstract: A multi-port liquid bridge (1) adds aqueous phase droplets (10) in an enveloping oil phase carrier liquid (11) to a draft channel (4, 6). A chamber (3) links four ports, and it is permanently full of oil (11) when in use. Oil phase is fed in a draft flow from an inlet port (4) and exits through a draft exit port (6) and a compensating flow port (7). The oil carrier and the sample droplets (3) (“aqueous phase”) flow through the inlet port (5) with an equivalent fluid flow subtracted through the compensating port (7). The ports of the bridge (1) are formed by the ends of capillaries held in position in plastics housings. The phases are density matched to create an environment where gravitational forces are negligible. This results in droplets (10) adopting spherical forms when suspended from capillary tube tips. Furthermore, the equality of mass flow is equal to the equality of volume flow.

Abstract: A first packet is received at a network element from an E-UTRAN Node B (eNB) of an E-UTRAN access network via a secured communications tunnel of a secured connection, where the first packet encapsulates a second packet therein. It is determined whether the network element serves both a security gateway functionality and a serving gateway functionality of a core packet network based on the first packet and the second packet. The network element negotiates with the eNB to switch further communications from a tunnel mode to a transport mode of the secured connection if it is determined that the network element serves both the security gateway functionality and the serving gateway functionality. Thereafter, the network element exchanges further packets with the eNB via the transport mode of the secured connection after the eNB switches from the tunnel mode to the transport mode.

Abstract: A multi-port liquid bridge (1) adds aqueous phase droplets (10) in an enveloping oil phase carrier liquid (11) to a draft channel (4, 6). A chamber (3) links four ports, and it is permanently full of oil (11) when in use. Oil phase is fed in a draft flow from an inlet port (4) and exits through a draft exit port (6) and a compensating flow port (7). The oil carrier and the sample droplets (3) (“aqueous phase”) flow through the inlet port (5) with an equivalent fluid flow subtracted through the compensating port (7). The ports of the bridge (1) are formed by the ends of capillaries held in position in plastics housings. The phases are density matched to create an environment where gravitational forces are negligible. This results in droplets (10) adopting spherical forms when suspended from capillary tube tips. Furthermore, the equality of mass flow is equal to the equality of volume flow.

Abstract: According to one aspect of the invention, packets of a first type within a first data flow are routed to a destination through a packet core network. In response to a detection that packets of a second type are to be routed while routing the first data flow, a second data flow is created which is a sub-flow of the first data flow. Packets of the second type are routed via the second data flow to the destination without traversing the packet core network, while packets of the first type are routed via the first data flow traversing the packet core network.

Abstract: A fall prevention assembly for vertical lift systems for storage and in particular for parking motor vehicles, the lift system comprising a frame extending upward from a base and at least one platform that is raised vertically within that frame responsive to a lift mechanism upon which a vehicle is parked, the fall prevention assembly comprising a series of metal bars of sufficient size and strength to resist bending attached to the base of the unit and extending upward through a series of bushings mounted strategically on each platform usually at the corners. These bushings can be designed with ridges or teeth inside. As long as the platform or platforms remain level and in proper alignment with the lifting system and within the frame the bushings simply move up and down along the metal bars. In the case of the failure of a lifting means the platform or platforms would become unlevel or tilt and the bushings would bind upon the metal bar.

Abstract: The present invention generally relates to a devices, systems, and methods for amplifying nucleic acids in flowing droplets. In certain embodiments, the invention provides a device for amplifying nucleic acids including at least one channel through which sample droplets including nucleic acids flow, in which the nucleic acids in the droplets are optically detectable while the droplets are flowing through the channel, and a plurality of temperature zones in thermal contact with the channel, in which the zones are located at different locations along the channel and the zones are separated from each other.

Abstract: The present invention generally relates to devices, systems, and methods for acquiring and/or dispensing a sample without introducing a gas into a microfluidic system, such as a liquid bridge system. An exemplary embodiment provides a sampling device including an outer sheath; a plurality of tubes within the sheath, in which at least one of the tubes acquires a sample, and at least one of the tubes expels a fluid that is immiscible with the sample, in which the at least one tube that acquires the sample is extendable beyond a distal end of the sheath and retractable to within the sheath; and a valve connected to a distal portion of the sheath, in which the valve opens when the tube extends beyond the distal end and closes when the tube retracts to within the sheath.

Abstract: The present invention generally relates to methods for culturing and analyzing cells using liquid bridges.