AirCell LLC Patent applications |
Patent application number | Title | Published |
20110268096 | DIFFERENTIATED SERVICES CODE POINT MIRRORING FOR WIRELESS COMMUNICATIONS - The DSCP Mirroring System enables the automatic reuse of the Differentiated Services Code Point header by the user devices that are served by a network to enable delivery of wireless services to the individually identified user wireless devices and manage the various data traffic and classes of data to optimize or guarantee performance, low latency, and/or bandwidth without the overhead of the management of the Differentiated Services Code Point header. | 11-03-2011 |
20110116373 | TRAFFIC SCHEDULING SYSTEM FOR WIRELESS COMMUNICATIONS - The Traffic Scheduling System executes a multi-step process first to identify the bandwidth intensive traffic. The identification of the bandwidth intensive traffic is effected at the stream level by measuring the byte volume of the stream over a predetermined period of time and using this data to classify the stream into one of a plurality of usage categories. The classification of bandwidth intensive traffic is network neutral in that all data is classified at the stream level (source IP, destination IP, source port, destination port). Otherwise, the data is not inspected. Once streams have been classified by the Traffic Scheduling System, the Bandwidth Intensive and Near Real Time traffic can be controlled by a simple Traffic Shaping process executed by the Traffic Scheduling System, using a traffic management parameter such as via the Round-Trip Time of the next higher priority queue, in the set of queues. | 05-19-2011 |
20090197596 | SIP CLIENT-BASED LOCAL NUMBER PORTABILITY THROUGH AN AIRCRAFT AIR-TO-GROUND LINK - The SIP Number Portability System disables the cellular radios in the wireless device and enables a WiFi 802.11 protocol-based radio. In the airborne mode, it activates a call forwarding registration process which has calls to the subscriber's publicly available phone number forwarded to the Airborne Session Initiated Protocol client through a SIP-based Public Switched Telephone Network access number and incoming communication sessions directed to the subscriber's wireless service provider user address routed to the Airborne Session Initiated Protocol client through a SIP-based data gateway on the Internet or the Public Switched Data Network. On outbound calls, the Airborne Session Initiated Protocol Client populates the Calling Number field with the wireless subscriber device phone number so that the caller ID display located at the called party's subscriber device shows the subscriber's publicly available phone number. | 08-06-2009 |
20090010200 | SYSTEM FOR CREATING AN AIR-TO-GROUND IP TUNNEL IN AN AIRBORNE WIRELESS CELLULAR NETWORK TO DIFFERENTIATE INDIVIDUAL PASSENGERS - The Aircraft Air-To-Ground IP Tunnel System provides wireless communication services to passengers located onboard an aircraft by storing data indicative of the individually identified passenger wireless devices located onboard the aircraft. The Aircraft Air-To-Ground IP Tunnel System assigns a single IP address to each Point-to-Point Protocol link connecting the aircraft network to the ground-based communication network and creates an IP subnet onboard the aircraft. The IP subnet utilizes a plurality of IP addresses for each Point-to-Point link, enabling each passenger wireless device to be uniquely identified with their own IP address. This is enabled since both Point-to-Point Protocol IPCP endpoints have pre-defined IP address pools and/or topology configured, so each Point-to-Point Protocol endpoint can utilize a greater number of IP addresses than one per link. Such an approach does not change IPCP or other EVDO protocols/messaging but allows this address to be directly visible to the ground-based communication network. | 01-08-2009 |
20080305762 | SYSTEM FOR MANAGING AN AIRCRAFT-ORIENTED EMERGENCY SERVICES CALL IN AN AIRBORNE WIRELESS CELLULAR NETWORK - The Aircraft Emergency Services Call Management System enables the unique identification of each passenger wireless device in use in an aircraft and the corresponding identification of the passenger associated with the passenger wireless device. This passenger wireless device registration data is stored as database entries in a ground-based Automatic Location Identification (ALI) database which associates each aircraft with its registered passenger wireless devices. The origination of an emergency services call by any registered passenger wireless device results in the call being routed to a serving Public Safety Access Point (PSAP) where the passenger is connected to an emergency services operator. Since the aircraft flight crew and cabin crew are the only personnel on site that can be relied upon to provide some sort of emergency services response, they are included in the emergency services call. | 12-11-2008 |
20080274734 | SYSTEM FOR PROVIDING HIGH SPEED COMMUNICATIONS SERVICE IN AN AIRBORNE WIRELESS CELLULAR NETWORK - The present Broadband Link System supplements the existing Air-To-Ground Radio Frequency communications link with an additional, separate high speed Broadband Ground-To-Air Data Channel to provide additional data communication capacity for aircraft. This Broadband Ground-To-Air Data Channel is typically a uni-directional (Ground-To-Air) link directed via a focused beam to selected aircraft which are operational in the coverage area of the Broadband Ground-To-Air Data Channel. The routing of the various data transmissions on both the Air-To-Ground Radio Frequency communications link and the Broadband Ground-To-Air Data Channel are managed in a unified manner to maximize the utilization of the two transmission facilities. | 11-06-2008 |