AnyDATA WCDMA HSU Serial Device Driver
Generation (3G) started in October when WCDMA network was . other mobile device) containing radically different electronic components, without . allowed people to force a phone's serial code to use for making illegal calls. mobile terminals that have not transmitted or received any data for a certain time. Anydata, AnyDATA CDMA USB Serial 2 (NMEA) Device (PID ) (COM13) Anydata, AnyDATA WCDMA HSU Serial 1 (DIAG) Device (PID ) · Download. AnyDATA CDMA HSU Serial 2 (NMEA) Device (PID ). USB\VID_16D5&PID_&MI_ AnyDATA CDMA HSU Serial 1 (DIAG) Device (PID ). USB\.
|Supported systems:||Windows Vista, Windows Vista 64-bit, Windows XP 64-bit, Mac OS X, Mac OS X 10.4, Mac OS X 10.5|
|Price:||Free* [*Free Registration Required]|
AnyDATA WCDMA HSU Serial Device Driver
The present application further preferably provides user equipment adapted for reduced battery consumption in a UMTS network, the user equipment having a radio subsystem including a radio adapted to communicate with the UMTS network; a radio processor having a digital signal processor and adapted to interact with said AnyDATA WCDMA HSU Serial Device subsystem; memory; a user interface; a processor adapted to run user applications and interact with the memory, the radio and the user interface and adapted to run applications, the user equipment characterized by having means AnyDATA WCDMA HSU Serial Device Figure 1 is a block diagram showing the various modes and states for the radio resource control portion of a protocol stack in a UMTS network.
Br Update (V), 4/14/ Complete list of downloadable drivers.
As will be appreciated by those skilled in the art, a UMTS network consists of AnyDATA WCDMA HSU Serial Device land-based network segments. The Core Network is responsible for the switching and routing of data calls and data connections to the external networks while the UTRAN handles all radio-related functionalities. In idle modethe UE must request an RRC connection to set up the radio resource whenever data needs to be exchanged between the UE and the network.
This can be as AnyDATA WCDMA HSU Serial Device result of either an application on the UE requiring a connection to send data, or as a result of the UE monitoring a paging channel to indicate whether the UTRAN or SGSN has paged the UE to receive data from an external data network such as a push server. Specifically, the RRC connected mode includes four separate states. This state, since it has a dedicated physical channel allocated to the UE, typically requires the most battery power from the UE.
Instead, common channels are used to send signaling in a small amount of bursty data. This is the only state transition that the UE controls.
No uplink activity is possible. Specifically, reference is made to Figure 2. Figure 2 shows an illustration of various UMTS cellsand As will be appreciated by those skilled in the art, from a battery life perspective the idle state provides the lowest battery usage compared with the states above.
Promise Raid Console
Specifically, because the UE is required to monitor the paging channel only at intervals, the radio does not need to continuously be on, but will instead wake up periodically. The trade-off for this is the latency to send data.
However, if this latency is not too great, the advantages of being in the idle mode and saving battery power outweigh the disadvantages of the connection latency. Additional NBSPs can be included to further narrow the possible locations of the UE by providing additional intersections among relevant bin grid sets. As such, employing TFL information for location determination is demonstrably different from conventional location determination techniques or systems such as GPS, eGPS, triangulation or multilateration in wireless carrier environments, near field AnyDATA WCDMA HSU Serial Device, or proximity sensors.
LATAC can include decision engine component Decision engine component of system can facilitate forming determinations relating to a fraud analysis rule. Determinations can include satisfying a fraud analysis rule, not satisfying a fraud analysis rule, satisfying part of a fraud analysis rule, applying a fraud analysis rule to a set of information, etc.
A determination relating to a fraud analysis rule can be related to location information, including TFL location information. For example, where a fraud analysis rule is satisfied when a UE location is the same as a historic fraud location, decision engine component can determine is this rule is satisfied by comparing a TFL location for a UE with a set of historical fraud locations. Numerous other examples of specific rules are not explicitly recited for brevity but are AnyDATA WCDMA HSU Serial Device be considered within the scope of the present disclosure.
In an aspect, decision AnyDATA WCDMA HSU Serial Device component can include rule component to facilitate forming determinations related to a fraud analysis rule. Rule component can facilitate employing one or AnyDATA WCDMA HSU Serial Device fraud analysis rules. These rules can include, rules for determining a fraud factor value, determining a value employed in determining a fraud factor value, applying weighting, inclusion or exclusion of historical fraud activity, determining the scope of a relevant region around a location, etc.
In an embodiment, rule component can be a rule engine that allows the application of logical determinations to be embodied in one or more algorithms related to the analysis of a fraud analysis rule.
AnyDATA WCDMA HSU Serial Device As a non-limiting example, rule component can generate a rule that alters a weighting of a historical fraud activity based on the age of the historical fraud activity. As a second non-limiting example, rule component can generate AnyDATA WCDMA HSU Serial Device rule that determines a region to be included in a UE track, a region around a rural property, a region around an urban property, etc.
As a third non-limiting example, rule component can receive a rule that selects target historical fraud data sets to be included in an analysis, e.
In other embodiments, rule component can directly apply AnyDATA WCDMA HSU Serial Device rules to fraud analysis. For example, rule component can apply a weighting rule that amplifies fraud activities where the UE has recently been activated with a wireless carrier. As a second example, rule component can apply a predetermined rule that excludes entire regions, such as prohibiting transactions in Canada. Further explicit examples are not provided for brevity but all such examples are to be considered within the scope of the present disclosure.
System can further include fraud history information component Fraud history information component can facilitate receiving historical fraud information. Fraud history information component can include local, remote, or distributed data stores. For example, fraud history information component AnyDATA WCDMA HSU Serial Device facilitate access to historic fraud resource information from a financial institution database, e.
As a second example, fraud history information component can facilitate access to historic fraud data on a wireless carrier database.
Similarly, fraud data can be distributed, e. Fraud history information component can be communicatively coupled to decision engine component of LATAC to facilitate determining a value for a fraud factor based on historical fraud information and the location of a UE.
In an aspect, carrier-side LATAC can be embodied on equipment associated with a wireless carrier.