Abstract: A real-time system and method for determining whether to invoke a fraud alert notification to a bank concerning an account holder or an item issuer following an interim determination that the account holder or item issuer has participated in a fraudulent transaction. An interim determination is updated based in part on bank transaction data received following the interim determination.

Abstract: This disclosure describes techniques for implementing a blockchain to manage license compatibility. The techniques include parsing a code segment in a version of source code based on one or more parsing parameters, wherein the code segment is associated with a transaction and distributed under a license. Thereafter, one or more blocks are inserted onto a blockchain distributed ledger recording the transaction. Upon receiving an updated version of the source code comprising a change to at least one code segment associated with a new transaction, additional blocks are inserted onto the ledger recording the new transaction. Based at least on the transaction recorded in the blocks, the license associated with the version of the source code is identified. Additionally, a flag may indicate license incompatibility with the license if the change to at least one code segment associated with the new transaction violates a license restriction of the identified license.

Abstract: Devices and methods are described to aid in neck strengthening. Embodiments of devices described have a lever arm extending outward from the user's chin area, the lever arm having attachment points so that an external load force can be applied such that the user, when counteracting the load force will pull their head backwards at the same time as moving their chin downwards which will, in turn strengthen the neck. The action will strengthen the neck in such a way as to reduce forward head posture and the negative effects of the same.

Abstract: Techniques are disclosed for implementing digital traffic data for analysis. In some examples, a telecommunications network determines an identity of a user associated with a user device that communicates with the telecommunications network. The telecommunications network identifies a physical location of the user device based on the user device communicating with a first transceiver of the telecommunications network. Then, the telecommunications network determines that the physical location of the user device corresponds to a first commercial location, and stores an indication that the user has visited the first commercial location.

Abstract: This disclosure describes techniques for implementing a blockchain to manage license compatibility. The techniques include parsing a code segment in a version of source code based on one or more parsing parameters, wherein the code segment is associated with a transaction and distributed under a license. Thereafter, one or more blocks are inserted onto a blockchain distributed ledger recording the transaction. Upon receiving an updated version of the source code comprising a change to at least one code segment associated with a new transaction, additional blocks are inserted onto the ledger recording the new transaction. Based at least on the transaction recorded in the blocks, the license associated with the version of the source code is identified. Additionally, a flag may indicate license incompatibility with the license if the change to at least one code segment associated with the new transaction violates a license restriction of the identified license.

Abstract: This disclosure describes techniques for implementing blockchain for document verification and tracking. The techniques include parsing at least one portion of a version of a data file based at least on one or more parsing parameters, wherein at least one portion is associated with a transaction. The techniques also include generating a hash value for at least one portion associated with the transaction from a hash function and generating a digital signature using the hash value and key. Blocks representing the transaction is inserted onto a blockchain distributed ledger. The techniques further include receiving an updated version of the data file comprising the at least one portion of the data file associated with a new transaction and inserting additional blocks onto the blockchain distributed ledger recording the new transaction. Thereafter, the techniques include indicating differences between the version and the updated version of the data file.

Abstract: This disclosure describes techniques for implementing a blockchain to manage license compatibility. The techniques include parsing a code segment in a version of source code based on one or more parsing parameters, wherein the code segment is associated with a transaction and distributed under a license. Thereafter, one or more blocks are inserted onto a blockchain distributed ledger recording the transaction. Upon receiving an updated version of the source code comprising a change to at least one code segment associated with a new transaction, additional blocks are inserted onto the ledger recording the new transaction. Based at least on the transaction recorded in the blocks, the license associated with the version of the source code is identified. Additionally, a flag may indicate license incompatibility with the license if the change to at least one code segment associated with the new transaction violates a license restriction of the identified license.

Abstract: Techniques for identifying certain types of network activity are disclosed, including parsing network traffic to automatically recognize anonymous identifiers. Such techniques may be used to identify and eliminate malicious and/or undesirable network traffic, and to identify topics relevant to a user of a particular network device so that communications to such a user are more likely to relate to a topic of interest to the user.

Abstract: A fraud monitor in a managed network is provided. The fraud monitor uses the network's instrumentation data, configuration data, and account information to detect fraudulent activities in the network, such as fraudulent advertisement or other types of fraudulent data traffic, including fraudulent responses (e.g., fraudulent clicks) to advertisement. The fraud monitor receives configuration data and identification data for physical resources of the network. The fraud monitor receives instrumentation data of packet traffic in the network. The fraud monitor receives account information for users of the network. The fraud monitor analyzes the instrumentation data to detect a violation of a fraud detection policy that prevents malicious or fraudulent online advertisement activity based on the configuration data, identification data, or account information.

Abstract: Techniques for identifying certain types of network activity are disclosed, including parsing of a Uniform Resource Locator (URL) to identify a plurality of key-value pairs in a query string of the URL. The plurality of key-value pairs may include one or more potential anonymous identifiers. In an example embodiment, a machine learning algorithm is trained on the URL to determine whether the one or more potential anonymous identifiers are actual anonymous identifiers (i.e., advertising identifiers) that provide advertisers a method to identify a user device without using, for example, a permanent device identifier. In this embodiment, a ranking threshold is used to verify the URL. A verified URL associate the one or more potential anonymous identifiers with the user device as actual anonymous identifiers. Such techniques may be used to identify and eliminate malicious and/or undesirable network traffic.

Abstract: This disclosure describes techniques for generating curated In-Real Life (IRL) media data for distribution via third-party multimedia platform(s), and further providing an engagement entity (i.e., producer, merchant, or curator) with a recommendation to solicit an interaction with another engagement entity. Particularly, an IRL-Media Platform Analytics (IRL-MPA) system is described that can create curated IRL-media data by refining a presentation of raw IRL-media data, and further embedding product-service offerings and engagement requests. The IRL-MPA system may configure the curated IRL-media data for playback on one or more third-party platforms, such that a viewing audience member may respond to an engagement request embedded within the curated IRL-media data.

Abstract: Techniques are disclosed for implementing digital traffic data for analysis. In some examples, a telecommunications network determines an identity of a user associated with a user device that communicates with the telecommunications network. The telecommunications network identifies a physical location of the user device based on the user device communicating with a first transceiver of the telecommunications network. Then, the telecommunications network determines that the physical location of the user device corresponds to a first commercial location, and stores an indication that the user has visited the first commercial location.

Abstract: Techniques are disclosed for implementing digital traffic data for analysis. In some examples, a telecommunications network determines an identity of a user associated with a user device that communicates with the telecommunications network. The telecommunications network identifies a physical location of the user device based on the user device communicating with a first transceiver of the telecommunications network. Then, the telecommunications network determines that the physical location of the user device corresponds to a first commercial location, and stores an indication that the user has visited the first commercial location.

Abstract: Techniques are described herein for caching content locally at a local network device and serving the cached content via multicast transmission to a user equipment in a multicast single frequency network (SFN) coverage area in which the local network device is located. The local network device receives a request for content from the user equipment in the multicast SFN coverage area. The request includes usage data associated with the user equipment indicating a triggering event. If the content is not cached at the local network device, the local network device identifies a content server to provide the content based at least on the usage data and a broadcast identifier associated with the local network device. The local network device receives the content that is associated with the broadcast identifier of the local network device and stores the content locally. Thereafter, the local network device serves the content via multicast transmission to the user equipment.

Abstract: This disclosure describes techniques for implementing a blockchain to manage license compatibility. The techniques include parsing a code segment in a version of source code based on one or more parsing parameters, wherein the code segment is associated with a transaction and distributed under a license. Thereafter, one or more blocks are inserted onto a blockchain distributed ledger recording the transaction. Upon receiving an updated version of the source code comprising a change to at least one code segment associated with a new transaction, additional blocks are inserted onto the ledger recording the new transaction. Based at least on the transaction recorded in the blocks, the license associated with the version of the source code is identified. Additionally, a flag may indicate license incompatibility with the license if the change to at least one code segment associated with the new transaction violates a license restriction of the identified license.

Abstract: This disclosure describes techniques for implementing blockchain for document verification and tracking. The techniques include parsing at least one portion of a version of a data file based at least on one or more parsing parameters, wherein at least one portion is associated with a transaction. The techniques also include generating a hash value for at least one portion associated with the transaction from a hash function and generating a digital signature using the hash value and key. Blocks representing the transaction is inserted onto a blockchain distributed ledger. The techniques further include receiving an updated version of the data file comprising the at least one portion of the data file associated with a new transaction and inserting additional blocks onto the blockchain distributed ledger recording the new transaction. Thereafter, the techniques include indicating differences between the version and the updated version of the data file.

Abstract: This disclosure describes techniques for authenticating text documents that can include a cryptographic font script. The text documents can be generated using a text editor application that can generate a machine-readable code or a unique document identification (ID) that can include a metadata component having various authentication data and that can cryptographically sign the documents. The signature on the document can be used to verify the data and identity of the signer. Each such transaction is referenced in a blockchain to construe a public ledger representing the ownership of the text documents from the full record of transactions in the blockchain.

Abstract: Techniques for identifying certain types of network activity are disclosed, including parsing of a Uniform Resource Locator (URL) to identify a plurality of key-value pairs in a query string of the URL. The plurality of key-value pairs may include one or more potential anonymous identifiers. In an example embodiment, a machine learning algorithm is trained on the URL to determine whether the one or more potential anonymous identifiers are actual anonymous identifiers (i.e., advertising identifiers) that provide advertisers a method to identify a user device without using, for example, a permanent device identifier. In this embodiment, a ranking threshold is used to verify the URL. A verified URL associate the one or more potential anonymous identifiers with the user device as actual anonymous identifiers. Such techniques may be used to identify and eliminate malicious and/or undesirable network traffic.

Abstract: Techniques for identifying certain types of network activity are disclosed, including parsing network traffic to automatically recognize anonymous identifiers. Such techniques may be used to identify and eliminate malicious and/or undesirable network traffic, and to identify topics relevant to a user of a particular network device so that communications to such a user are more likely to relate to a topic of interest to the user.

Abstract: An enhancement content asset is presented along with an incoming communication alert on a terminating recipient device. An initiation of a communication to a recipient that is sent by a caller at a caller user device is received at the core network of the wireless carrier network. A terminating recipient device for the communication is identified based on a recipient identifier of the recipient included in the initiation of the communication. A reference that enables the terminating recipient device to obtain an enhancement content asset from the wireless carrier network or a third-party content provider is generated, such that a message that includes the reference is sent to the terminating recipient device to trigger presentation of the enhancement content asset along with an incoming communication alert for the communication on a user interface of the terminating recipient device.