Patent application number | Description | Published |
20080230012 | Animal Entertainment Device - An animal entertainment device comprises a guide unit and a wheel that travels on the guide unit. | 09-25-2008 |
20120192807 | SOUND-MAKING PET TOY - A sound-making pet toy includes a shell having an opening and an inner space accessible through the opening and a sound-making body having a reduced state and an expanded state larger than the reduced state. When the sound-making body is disposed in the opening, it has the reduced state and when it is disposed in the inner space, it has the expanded state. The sound-making body has a resilient air-holding body and a sound making device that is responsive to air from the air holding body passing through the sound-making body. When the sound-making body is in the expanded state, it is lodged against the inner surface of the shell. When the sound-making body is in the expanded state, it expels air from the resilient air holding body when a force impacts the shell. In the expanded state, it is larger than the opening. | 08-02-2012 |
20130206080 | SOUND-MAKING PET TOY - A sound-making pet toy includes a shell having an opening and an inner space accessible through the opening and a sound-making body having a reduced state and an expanded state larger than the reduced state. When the sound-making body is disposed in the opening, it has the reduced state and when it is disposed in the inner space, it has the expanded state. The sound-making body has a resilient air-holding body and a sound making device that is responsive to air from the air holding body passing through the sound-making body. When the sound-making body is in the expanded state, it is lodged against the inner surface of the shell. When the sound-making body is in the expanded state, it expels air from the resilient air holding body when a force impacts the shell. In the expanded state, it is larger than the opening. | 08-15-2013 |
Patent application number | Description | Published |
20110200982 | GENETICALLY MODIFIED MICE AND ENGRAFTMENT - A mouse with a humanization of the mIL-3 gene and the mGM-CSF gene, a knockout of a mRAG gene, and a knockout of a mIl2rg subunit gene; and optionally a humanization of the TPO gene is described. A RAG/Il2rg KO/hTPO knock-in mouse is described. A mouse engrafted with human hematopoietic stem cells (HSCs) that maintains a human immune cell (HIC) population derived from the HSCs and that is infectable by a human pathogen, e.g., | 08-18-2011 |
20130022996 | GENETICALLY MODIFIED MICE AND ENGRAFTMENT - A mouse with a humanization of the mIL-3 gene and the mGM-CSF gene, a knockout of a mRAG gene, and a knockout of a mII2rg subunit gene; and optionally a humanization of the TPO gene is described. A RAG/II2rg KO/hTPO knock-in mouse is described. A mouse engrafted with human hematopoietic stem cells (HSCs) that maintains a human immune cell (HIC) population derived from the HSCs and that is infectable by a human pathogen, e.g., | 01-24-2013 |
20130024957 | GENETICALLY MODIFIED MICE AND ENGRAFTMENT - A mouse with a humanization of the mIL-3 gene and the mGM-CSF gene, a knockout of a mRAG gene, and a knockout of a mII2rg subunit gene; and optionally a humanization of the TPO gene is described. A RAG/II2rg KO/hTPO knock-in mouse is described. A mouse engrafted with human hematopoietic stem cells (HSCs) that maintains a human immune cell (HIC) population derived from the HSCs and that is infectable by a human pathogen, e.g., | 01-24-2013 |
20140090095 | Genetically Modified Mice and Engraftment - A mouse with a humanization of the mIL-3 gene and the mGM-CSF gene, a knockout of a mRAG gene, and a knockout of a mIl2rg subunit gene; and optionally a humanization of the TPO gene is described. A RAG/Il2rg KO/hTPO knock-in mouse is described. A mouse engrafted with human hematopoietic stem cells (HSCs) that maintains a human immune cell (HIC) population derived from the HSCs and that is infectable by a human pathogen, e.g., | 03-27-2014 |
Patent application number | Description | Published |
20100266991 | FLIGHT SIMULATION SYSTEM - A flight simulation system capable of simulating multiple aircraft through interchangeable instrument panels, throttle quadrants, and control devices (stick and/or yoke). The system has multiple visual displays capable of displaying simulated outside views and instrument displays (e.g. multiple aircraft, avionics suites, gauges, etc.). The instrument panels simulating a particular type of aircraft and containing switches, knobs, and/or buttons of approximately the same type and approximately the same location as in the simulated aircraft. The system containing a communications system compatible with standard pilot headsets and a pilot key for logging, storage, and permissions. | 10-21-2010 |
20100266992 | INTERCHANGEABLE INSTRUMENT PANEL OVERLAY SYSTEM FOR A FLIGHT SIMULATOR - An interchangeable instrument panel overlay system for a flight simulator interchangeable with another simulating a different aircraft. Each instrument panel simulating a particular type of aircraft and containing switches, knobs, and/or buttons of approximately the same type and approximately the same location as in the simulated aircraft. The instrument panels capable of simulating a variety of avionics suites, gauges, and/or other equipment. The instrument panels capable of being affixed over a visual display displaying avionics suites, gauges, and/or other equipment. | 10-21-2010 |
20100266993 | INTERCHANGEABLE INSTRUMENT PANEL, THROTTLE QUADRANT, AND CONTROL DEVICE SYSTEM - An interchangeable instrument panel, throttle quadrant, and control device (stick and/or yoke) for a flight simulation system each independently interchangeable with another simulating a different aircraft. Each instrument panel simulating a particular type of aircraft and containing switches, knobs, and/or buttons of approximately the same type and approximately the same location as in the simulated aircraft. The instrument panels capable of simulating a variety of avionics suites, gauges, and other equipment. Each throttle quadrant simulating a particular type of aircraft (e.g. single engine; multi-engine; knob/pull style; lever style). | 10-21-2010 |
20100266994 | MOTION PLATFORM FOR A FLIGHT SIMULATION SYSTEM - A motion platform providing motion for roll, pitch, heave, surge, yaw, and sway from only three electric motors. Each motor moving one of three frames in a particular direction (roll, pitch, or yaw) via either a pulley style system or a direct system. The motion platform having a control system to precisely move the motion platform in response to received commands. The motion platform capable of operating in a room with at least eight foot ceilings and one standard power outlet. The motion platform utilizing pneumatic cylinders and infrared beams as safety devices. | 10-21-2010 |
Patent application number | Description | Published |
20100124221 | METHODS AND APPARATUS TO INFER THE STATUS OF BORDER GATEWAY PROTOCOL SESSIONS - Methods and apparatus to infer the status of BGP sessions are disclosed. A disclosed example method comprises querying a configuration file of a router of a first AS to identify a BGP session to a second AS, querying the file to determine whether the BGP session is a single hop, when the BGP session is a single hop, setting a status flag to a first value, querying the file to determine whether there is a valid IP configuration for the BGP session, when there is a valid IP configuration, setting the status flag to a second value, querying a router syslog file for the router to identify a syslog message associated with the BGP session, determining whether the session is stale, and when the session is not stale and the status flag is set to the second value, adding the second AS to a list of actual AS neighbors. | 05-20-2010 |
20100128633 | Reverse engineering peering at Internet Exchange Point - A technique for examining the relationships of autonomous systems (ASes) participating in an Internet Exchange Point (IXP) utilizes packet tracing servers proximate the IXPs. Where such packet tracing servers cannot be found in the participating ASes, the methodology identifies additional vantage points by looking at a list of ASes that are one hop away from the ASes at the IXP. The choice of one-hop away ASes is made judiciously by picking ones that have better connectivity, based on past-data. Plural-hop ASes may also be used where necessary. | 05-27-2010 |
20110085630 | TCP FLOW CLOCK EXTRACTION - A packet trace is received. The packet trace is transformed into a sequence of pulse signals in a temporal domain. The sequence of pulse signals in the temporal domain is transformed into a sequence of pulse signals in a frequency domain. Peaks are detected within relevant frequency bands in the sequence of pulse signals in the frequency domain. A fundamental frequency is identified within the peaks. The fundamental frequency, which represents the TCP flow clock, is returned. | 04-14-2011 |
20110096662 | Inferring TCP Initial Congestion Window - A packet trace is received. Inter-arrival times between the multiple packets in the packet trace are determined. An inter-arrival time in the inter-arrival times that is greater than a threshold is identified. An order number of the inter-arrival time is identified. A determination is made as to whether a size of each of at least a portion of the multiple packets is equal to a maximum segment size. When a determination is made that the size of each of at least a portion of the multiple packets is equal to the maximum segment size a size of the ICW as a product of the order number and the maximum segment size is returned. | 04-28-2011 |
20110103256 | Detecting Irregular Retransmissions - A packet trace is received. Transmitted bytes and retransmitted bytes are identified in the packet trace. Upon identifying the transmitted bytes and the retransmitted bytes in the packet trace, one or more time-rate pairs are determined from the packet trace. The time-rate pairs are plotted on a rate tracking graph. | 05-05-2011 |
20110134800 | Reverse Engineering Peering At Internet Exchange Points - A technique for examining the relationships of autonomous systems (ASes) participating in an Internet Exchange Point (IXP) utilizes packet tracing servers proximate the IXPs. Where such packet tracing servers cannot be found in the participating ASes, the methodology identifies additional vantage points by looking at a list of ASes that are one hop away from the ASes at the IXP. The choice of one-hop away ASes is made judiciously by picking ones that have better connectivity, based on past-data. Plural-hop ASes may also be used where necessary. | 06-09-2011 |
20120307678 | Inferring TCP Initial Congestion Window - A packet trace is received. Inter-arrival times between the multiple packets in the packet trace are determined. An inter-arrival time in the inter-arrival times that is greater than a threshold is identified. An order number of the inter-arrival time is identified. A determination is made as to whether a size of each of at least a portion of the multiple packets is equal to a maximum segment size. When a determination is made that the size of each of at least a portion of the multiple packets is equal to the maximum segment size, a size of the ICW as a product of the order number and the maximum segment size is returned. | 12-06-2012 |
20130242801 | Reverse Engineering Peering At Internet Exchange Points - A technique for examining the relationships of autonomous systems (ASes) participating in an Internet Exchange Point (IXP) utilizes packet tracing servers proximate the IXPs. Where such packet tracing servers cannot be found in the participating ASes, the methodology identifies additional vantage points by looking at a list of ASes that are one hop away from the ASes at the IXP. The choice of one-hop away ASes is made judiciously by picking ones that have better connectivity, based on past-data. Plural-hop ASes may also be used where necessary. | 09-19-2013 |