The NFC Forum has issued publication of one candidate and two adopted specifications, following approval by the Board of Directors.
Available from the NFC Forum website, the specifications enhance the performance and security of NFC services.
New candidate specification:
• Connection Handover Candidate Technical Specification 1.4 defines the structure and sequence of interactions that enable two NFC devices to establish a connection using other wireless communication technologies, such as Bluetooth or WLAN. Candidate Version 1.4 adds the capability for an NFC device to communicate the availability of, or seek, specific services to use on the alternate carriers. This capability makes it easier for the user to launch a specific service on an alternate carrier, as in these two examples:
◦ When an NFC phone taps a printer, the phone can know in advance what print methods that printer supports, and can prepare to print to it.
◦ A user of an NFC phone has the choice of either displaying a photo from the phone on the bigger screen of a tablet or storing that photo file on the tablet. After making the selection, the user taps the tablet with the phone to transfer the photo via WLAN or Bluetooth and the selected action is performed with no additional action required.
This functionality is supported by the new Verb Record Type Definition (RTD) 1.0 Technical Specification and the Device Information RTD 1.0 Technical Specification, published last year.
Connection Handover 1.4 also supports connections via an IP network, which adds the capability to do handover via the cloud.
Final, adopted specifications:
• Verb RTD 1.0 Technical Specification is a new specification. It is used to encode generic and carrier-specific supported services, which can then be used by implementations of the Connection Handover 1.4 candidate specification to offer an enhanced user experience. The Verb Record can, for example, encode the service to trigger the printing of a document or picture that will be transferred via the Bluetooth or WLAN connection.
• NFC Logical Link Control Protocol (LLCP) 1.3 Technical Specification defines a protocol to support peer-to-peer communication between two NFC-enabled devices, which is essential for any NFC applications that involve bi-directional communications. Version 1.3 adds a secure data transport mechanism, using industry-standard advanced cryptography for encryption and message authentication, to ensure the confidentiality of messages exchanged between peer devices. This mechanism ensures that data exchanged between two devices are automatically protected against eavesdropping. For example, the exchange of business contact data or a private phone number cannot be spied on by a third person.
NFC technology makes life easier and more convenient for consumers around the world by making it simpler to make transactions, exchange digital content, and connect electronic devices with a touch. A standards-based connectivity technology, NFC harmonizes today’s diverse contactless technologies, enabling current and future solutions in areas such as access control, consumer electronics, health care, information collection and exchange, loyalty and coupons, payments, and transport. NFC technology is supported by the world’s leading communication device manufacturers, semiconductor producers, network operators, IT and services companies, and financial services organizations. NFC is compatible with hundreds of millions of contactless cards and readers already deployed worldwide.
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