This application relates to the field of communications, and more particularly, to Near Field Communications (NFC) and other short range wireless communications protocols.
A recent trend in mobile communications has been to incorporate Near Field Communication (NFC) and other short-range wireless communications protocols into mobile devices and other communications systems and components. NFC and other short-range communications devices can initiate and execute fully and/or semi-automatic wireless data interchanges by being brought into or otherwise placed in sufficiently close proximity, or in some embodiments by brief, controlled contact, or device “kissing.”
Systems, devices, and methods adapted for NFC and other short-range communications processes can be applied in a wide variety of uses. Such uses can, for example, include the sharing of information among groups of people (for example, the public) by means of posters and other fixed devices comprising NFC-capable data storage devices. For example, passive and/or active NFC devices embedded in or otherwise attached to posters can be used to share a wide variety of information related to advertisements, public notices, etc.
In view of the very powerful potential of such NFC-capable (“smart”) posters, it is desirable to improve efficiency in their production.
Examples of various aspects and embodiments of the invention are shown in the drawings, and described therein and elsewhere throughout the disclosure. In the drawings, like references indicate like parts.
In one aspect, the disclosure provides methods of making smart posters, comprising printing static human-interpretable information on a display substrate such as a wall, sheet of plastic, or sheet of paper; attaching to the substrate a storage device readable by one or more wireless communications devices; and providing on the substrate one or more devices, each comprising at least one machine-readable object, the at least one machine-readable object comprising data representing instructions configured to enable a controller to write to the storage device data readable by the plurality of wireless devices.
In a further aspect, the disclosure provides methods of writing data to smart posters, comprising reading, by a controller of a wireless handheld communication device, at least one machine-readable object on a display substrate bearing static, human-interpretable information; based at least partly on interpretation of the machine-readable object, initiating a wireless communications session with at least one wirelessly-encodable storage device attached to the substrate, the data storage device readable by a plurality of wireless devices; and writing to the at least one wirelessly-encodable storage device attached to the substrate data readable by the plurality of wireless devices.
In a further aspect, the disclosure provides posters made in accordance with any of the foregoing methods.
In further aspects, the disclosure provides systems, methods, and computer programming products, including non-transient machine-readable instruction sets, for use in implementing such methods and making such posters.
Near-field communication(s) (NFC) are wireless communications between two or more suitably-configured devices when the devices are placed or otherwise disposed within a desired, typically relatively proximity to one another. Such communications can, for example, be initiated on a fully or partially automatic basis when the two or more devices are placed within desired proximity of one another, and can occur between any two or more of active and/or passive NFC devices.
As will be appreciated by those skilled in the relevant arts, once they have been made familiar with this disclosure, NFC communications in accordance with this disclosure can be conducted according to any suitable protocols, including a number of protocols now in widespread public use, as well as protocols yet to be developed.
In general, an NFC transaction, or data interchange, may be initiated by bringing two or more NFC-enabled devices into close proximity of one another. “Close proximity” can, as will be apparent to those skilled in the relevant arts, once they have been made familiar with this disclosure, mean any proximity suitable to a desired purpose, and typically means sufficiently close that it may be presumed that communications between the two or more NFC devices is desired. For current NFC applications, for example, “close proximity” can mean one or several centimeters, or shorter or longer distances, depending for example upon the purpose and nature of the NFC transaction and the NFC-enabled devices. The action of bringing such NFC-enabled devices into sufficiently close proximity may trigger automatic or semi-automatic activation of an NFC circuit, and/or an NFC communication.
For purposes of this disclosure, NFC communications may be conducted according to any desired wireless communications protocol(s), including for example those published or otherwise adopted by the various NFC and/or Radio Frequency Identification (RFID) industry federations, councils, groups, and boards, and their members, as well as any or all of Bluetooth or WiFi wireless protocols, including for example any or all of Code Division Multiple Access (CDMA), Time Division Multiple Access (TDMA), Frequency Division Multiple Access (FDMA), Orthogonal Frequency Division Multiple Access (OFDMA), Single Carrier Frequency Division Multiple Access (SC-FDMA), GSM, 3GPP, 4G, or other wireless protocols.
An example of an NFC system 100 suitable for use in implementing various aspects of the disclosure is shown in
For example, in the embodiment illustrated in
An example of a suitable proximity for such embodiments may be in the range of about 10 to 20 mm, but the range may be more or less depending on the strength and/or sensitivity of the magnets, sensors, and other components involved, and the purposes for which the device(s) 110, 120 and/or system 100 is intended. The sensor(s) 726 on each device 110, 120 may be aligned to the magnet on the respective other device, as illustrated in
Establishment of NFC communications sessions between the devices 110, 120 can be conditioned on suitably-adapted authorizations, using, for example, PIN numbers and/or other security keys.
Interaction between active NFC devices 110 as shown, for example, in
A passive NFC device 950 in accordance with the invention can comprise one or more memory(ies), including both volatile and/or persistent (i.e., non-transient) media for storing data readable by active NFC (i.e., wireless) device(s) 110, 112. Data stored by passive device(s) 950 and read by active device(s) 110, 112 can include any data suitable for desired purpose(s). For example, a passive device 950 affixed to an informational document such as an advertising or instructional poster can store, for reading by one or more active device(s) 110, any information desired to be imparted to the device(s) 110 and/or users thereof. For example, a device 950 affixed to an advertising poster can store information related to a product, such as an item of clothing, an entertainment event, or a food product purchasable by a user of a device 110.
Alternatively, or in addition, a device 950 can store data such as a uniform resource locator (URL) or other address information, such as a telephone number, readable by active device(s) 110 and suitable for directing a processor associated with the device(s) 110 to establish one or more uni- or multi-direction communications sessions with commonly-controlled and/or third-party resources via one or more networks 900, as shown in
Such networked resources can, for example, include vendor, enterprise, or other servers, computers, smartphones, etc.
A somewhat more general embodiment of a system 100 for implementing aspects of the disclosure is shown schematically in
As explained further below, the device 110, 120 shown in
As will occur to those skilled in the relevant arts, device(s) 110, 120 may include any of a wide variety of these and other components and (sub)systems, in any desired combination(s); and they may interact in any of a wide variety of ways, in addition to those described herein.
As will further be understood by those skilled in the relevant arts, handheld device(s) 120 can comprise any of a very wide range of mobile devices, including for example cellphones, smartphones, and other radio-based communications devices, as well as laptop, palmtop, and tablet computers. “Handheld” means portable and operable using one or both hands; and, in the case of smart phones, can but does not necessarily mean devices that are roughly the size of an average human palm.
One or more processors 8180, 8158, 8138, 8132(a), etc., working singly or in any desirable or otherwise suitable combinations, can use inputs generated and/or otherwise provided by any one or more of the various input device(s) input device(s) 8140, 8112, 8137, 8138, 8160, 8134, 8240, 8242, 8106, 8108, 8132, 8101 and locally and/or remotely-accessible peripheral devices, such as printers, servers, telephones, computers, etc., to generate, according to suitably-configured logic rules, output signals suitable for processing by any one or more of the various output device(s) 8160, 8110, 8135, 8106, 8108, 8132, 8101, and locally and/or remotely-accessible peripheral devices, etc.
Any or all of processor(s) 8180, 8158, 8138, 8132(a), etc., along with any other desired components and/or (sub)systems incorporated, by a device 120 may be protectively and/or functionally contained within housing 8120(s) coupled, as for example by means of suitably-configured buses, etc., between the various memory, input, output, and auxiliary devices (such as battery(ies), solar power generators, etc) in order to perform the functions disclosed herein. Processor(s) 8180, 8158, 8138, 8132(a) may be of any suitable form(s). For example, CPU(s) 8180 may comprise one or more microprocessors chip contained on or otherwise attached to one or more circuit boards within housing(s) 8120. CPU(s) 8180 can provide general command and control functions including, for example, operation of the display 8160, as well as the overall operation of the mobile device 810, in response to received information and inputs, such as in response to actuation of keys on the keypad 8140 by the user. Processors, 8158, 8138, 8132(a), etc., may be provided to control specialized functions such as operation of NFC and other particular communications channels.
Logic rules suitable for use by processors 8180, 8158, 8138, 8132(a) in generating such outputs can be accessed from any suitable locally and/or remotely located source(s), including, for example, any one or more applications modules 8130A-N, 8244, etc., as, for example, explained herein. Such rules and modules can be provided in any form(s) suitable for achieving the purposes addressed herein, including for example software instructions stored in transient (volatile) and/or non-transient (persistent) memory, firmware, and hard-programmed hardware device(s) or component(s).
Memory(ies) 8118, 8116, etc., which can be of any form compatible with the purposes disclosed herein, including, for example, flash, EEPROM, RAM, ROM, disk, register, etc., can be accessed, controlled, and otherwise used 8180, 8158, 8138, 8132(a), etc., for reading data used in the various processes described herein, for storing output so generated, and for holding executable forms of suitably-configured application and/or module instruction sets. Such stored data may, for example include operating system and other software executed by the processing device 8180.
As shown in
Long-range (e.g., cellular) voice and/or text communications processes may be provided for an active device 110, 120 by one or more wireless communications subsystems 8101, comprising transmitter(s) 8152, 8156, receiver(s) 8150, 8154, and digital signal processor(s) (DSP(s)) 8158.
Short-range communications may be provided by either or both of NFC subsystem(s) 8102, 8132, which may or may comprise dedicated antenna systems for short-range aspects; specialized memory device(s) 8116, 8118, and other device subsystems 8121.
Mobile device(s) 110, 120 in accordance with the disclosure may therefore be considered, in the examples shown, example, two-way RF communications devices having voice and data communications capabilities using RF circuitry. In addition, the mobile device 110, 120 may have the capability to communicate with other computer systems 110, 912, 914, etc., via the Internet or other network(s) 900. For example, a device 110, 120 may communicate with one or more servers 912, such as Internet servers, via RF subsystems 8101 and the associated components, including web module 8130e, and further via short-range communications subsystem(s) 8102, such as via web/browser module(s) 8130e. System(s) 8102 may include, for example, one or more Bluetooth communications modules for establishing Bluetooth wireless connection(s), and other communications modules, such as infrared modules or devices, WiFi circuits and modules, and associated components and circuits that may also form part of the RF circuitry.
A predetermined set of applications that control basic and optional device operations, such as data and voice communications 8130A and 8130B, may be installed on the device 110, 120 during manufacture. Application modules 8130A-N may include native and non-native modules for security 8130D, Web interaction 8130E, social interactions or applications, and the like.
NFC communications module(s) 8130C may include hardware and/or software to enable NFC controller(s) 8132A (which may themselves include hardware, software, and firmware a required) and with the microprocessor 8180, to perform NFC communications tasks, such as through the memory 8116. NFC communications module(s) 8130C may, in various embodiments, support responsive operability for tag 950 reads/writes, whether virtual or physical, by interacting with other modules and apps to affect data stored on tag(s) 950, and/or to obtain or write tag data. Such other modules may for example include web module 8130E, PIM module 8130F, and other software modules 8130N (such as apps and video players, by way of non-limiting examples). Microprocessor(s) 8180 may also cooperate with NFC module(s) 8130C, and with NFC subsystem(s) 8132, which may include one or more NFC chips comprising NFC controller(s) 8132a, and antenna(s) 8132b to facilitate communications with other active and/or inactive NFC device(s) 110, 950, as discussed herein. For example, an NFC communications module 8130C may allow a microprocessor 8180 to control the NFC subsystem 8132 and/or memory stores 8116, 8118.
NFC chips suitable for use in implementing aspects of the disclosure may, for example, comprise one or more PN531 microcontroller-based transmission modules produced by Koninklijke Phillips Electronics N.V. Such NFC chips 8132a may, for example, include both digital and analog circuitry, and one or more contactless Universal Asynchronous Receiver Transmitters (UARTs), cores, and host interfaces. Incorporated circuitry may include output drivers, integrated demodulators, bit decoders, mode detectors and RF-, magnetic, and/or level detectors as suitable. Suitable contactless UARTs may include elements for data processing, Cyclical Redundancy Checking (CRC), parity generation, framing generation and check bit coding and decoding, and/or other functions. Cores may, for example, include one or more 80C51 microcontroller, 32 Kbytes or other amounts of ROM and, one Kbyte or other amounts of RAM, for example. A set of host interfaces may interface with the microprocessor and interface according to such known standards as I2C, serial UART, SPI and USB. NFC circuits may be tuned to any frequency(ies) suitable for accomplishing the purposes disclosed herein, as for example about 13.56 MHz.
NFC (sub)system(s) 8132 may include and/or otherwise cooperate with one or more magnets/magnetometers or other magnet sensors 8134, such as Hall effect sensors, communicatively connected to the microprocessor 8180, 8132a. Sensor(s) 8134 may include components suitable for operation as a Hall effect sensor, including any necessary coils or other circuits. There is also illustrated a magnet/magnetometer 8135 that, in various embodiments, may be advantageously be provided in the form of one or more electromagnets and may operates with microprocessor(s) 8180, 8132am etc., to allow one or more alternate communications pathways using electromagnetic energy, which may be changed to correspond to changing data. Electromagnet(s) 8135 may perform a variety of different functions, including working as an active or passive device in association with other components of the device 110. For example, when an electromagnet 8135 is used instead of a permanent magnet (non-electromagnetic) in the devices of
In addition, personal information manager (PIM) application module(s) 8130F may be or include one or more native modules installed during manufacture. PIM(s) 8130F may be capable of organizing and managing data items, such as email, contacts, calendar events, voice mails, appointments, and task items. The PIM application is also capable of sending and receiving data items via a wireless network. The PIM data items are seamlessly integrated, synchronized and updated via the wireless network with the device user's corresponding data items, such as may be stored in the cloud or as may be associated with a host computer system, for example.
Communication functions, including data and voice communications, may be performed through the communications subsystem 8101, and/or through the short-range communications subsystem 8102, which may be part of the circuitry contained in device 810. The specific design and implementation of the communications subsystems 8101 and 8102 may be dependent upon the communications network in which the mobile device 810 is intended to operate.
Such communication functions may, as referenced above, be carried out by data module 8130B, voice module 8130A, and web module 8130D, including at the instruction of NFC module 8130C in accordance with the disclosed embodiments, with security for these communications, such as in the granting of access to PIM module 8130F, overseen by a security module 8130D. A security module 8130D may include one or more native or non-native security applications, including anti-virus/anti-malware applications or functions, and protection of PIM information via applications or functions, during external interactions, may occur via NFC or via the Web, for example. Accordingly, security module 8130D may allow for degrees of security in interacting with other devices, such as the aforementioned tags, and/or other devices such as servers (herein defined to include any device acting as an Internet, intranet, extranet, or other public or private network node, host, server, or the like), and particularly with devices or aspects of a device that enable the occurrence of communication exchanges by the device occur over a network, such as the Internet.
As previously noted, NFC processes may be conducted according to any of a wide variety of wireless, short-range communications protocols. Such protocols typically comprise sets of standards to enable devices 110, 120, such as smartphones and the like, to establish radio communication with each other by bringing them into close proximity, or by touching them together. Applications include wireless data transactions and simplified setup of communication sessions involving other communication technologies, such as Wi-Fi and Bluetooth. Communication is also possible between a powered NFC device and a powered or unpowered NFC “tag” or button. Suitable standard currently in use are have been p promulgated by the NFC Forum, which was founded in 2004 by Nokia, Philips and Sony, and which now has more than 160 members. The NFC Forum also promotes NFC and certifies device compliance.
Standards have been developed that cover both NFC Forum—sanctioned communication protocols and other short-range wireless data exchange (NFC) formats. Specifically, an example of NFC standards ISO/IEC 18092/ECMA-340; Near Field Communication Interface and Protocol-1 (NFCIP-1); ISO/IEC 21481/ECMA-352; and Near Field Communication Interface and Protocol-2 (NFCIP-2). NFC also encompasses a variety of pre-existing standards including ISO/IEC 14443 both Type A and Type B, and FeliCa. The standards specify the NFC air interface, modulation schemes, coding, transfer speeds, and frame format of the RF interface of NFC devices. The standards also comprise initialization schemes and conditions required for data collision-control during initialization for both active and passive NFC modes. In addition, they define a transport protocol, including protocol activation and data-exchange methods.
NFC protocols sanctioned by the NFC forum typically operate within a globally available and unregulated radio frequency band of 13.56 MHz, and generally have a working distance of up to about 20 centimeters. Three data rates are currently defined in the NFC standards: 106 kilobits per second (kbit/s); 212 kbit/s; and 424 kbit/s.
In addition, the NFC Forum has defined a common data format called NFC Data Exchange Format (NDEF), which can store and transport various kinds of items, such as MIME-typed objects and URLs. The NFC Forum also added the Simple NDEF Exchange Protocol for sending and receiving messages between two NFC-enabled devices.
All of the above-mentioned standards and formats, along with any other existing and applicable NFC standards, are incorporated herein by reference as if fully set forth in their entirety, in their finalized condition.
Both passive and active communications modes have been defined. In active communication modes, both an initiator device and a Target device may generate their own NFC fields 1000 (see e.g.,
Between two active NFC devices 110, either or both devices can act as either initiator or target. In passive communication mode, one of the devices lacks, or does not employ an ability to independently create an electro-magnetic NFC carrier field 1000, and therefore generally does not serve as an initiator.
As previously noted, systems 100, and devices 110, 120, 950 in accordance with the disclosure can be used to significant advantage in a very wide variety of applications.
As a particular example, the disclosure herein provides improved methods for making and writing data to smart posters, and for systems 100 and devices 110, 120, 950, useful for making and writing data to such posters.
At 802, human-interpretable information is printed on at least one surface of a display(able) substrate. For example, text and/or one or more images are printed on a sheet of paper, plastic, or other postable or otherwise displayable substance (including for example a wall of a building or other structure) using ink(s), paint(s), or other fixable material in accordance with known poster, flyer, placard, or other printing processes, including holographic and other processes giving the illusion of depth and/or movement. Information printed on the poster can comprise any necessary or otherwise desired text and/or image(s), in any desired combination(s). See, for example, poster 3900 of
At 804, one or more storage devices, such as RFID or other NFC-capable tags 950, are attached to the substrate 3900, either by embedding them within the substrate or affixing them to one or both surfaces 3908, 3910 thereof. Such devices can, for example, be embedded within the substrate 3900 as a part of the substrate manufacturing process, and/or can be permanently and/or removably attached using adhesives, as for example through the use of suitably-configured labels.
At 806, one or more machine-readable objects 3912, such as bar code(s) 3914, QR code(s) 3916, and/or other machine-vision compatible codes are provided on the substrate 3900. Object(s) 3912 can be placed on the substrate by any suitable means, as for example by printing them or applying suitably-configured permanent or removable adhesive labels to either or both surfaces 3908, 3910 of the substrate 3900.
Object(s) 3912 provided on the substrate 3900 can represent instructions configured to enable a controller, such as a controller 8132a of an NFC (sub)system 8132, to write to the attached storage device(s) data readable by a plurality of wireless NFC-enabled devices 110, 112, and may be affixed to either or both surfaces 3908, 3910 of the substrate 3900. In some embodiments, it may be preferable to play object(s) on a rear surface 3910 of the substrate 3900, so as, for example, not to alter or interfere with an artistic or otherwise aesthetic and/or functional image or text display printed on the front side 3908 of the substrate. Storage devices in accordance with the disclosure may, for example be readable and/or writeable according to any one or more desired NFC protocols.
Completed posters may be affixed, permanently or removably, to vehicle and/or building walls, billboards or other placards, or other suitable display surfaces either before and/or after writing of content data to the tag(s) or other storage device(s) 950 as described herein.
As will be understood by those skilled in the relevant arts, process(es) 400 can be performed by human(s) and/or suitably-configured automatic printing/processing machines, or by any desired or otherwise suitable combination(s) thereof. For example, all or parts of such processes may be implemented using conventional printing presses, modified as needed to achieve the objects disclosed herein.
At 902, a user 1002 of a wireless handheld or other NFC-enabled device 110, 120 can approach a poster 3900 implemented in accordance with the disclosure herein, which poster 3900 may, for example, be fully or partly fixed to a wall or other display surface, or may be lying on a table or other surface prior to installation. Placing the device 110, 112 within suitable juxtaposition to one or more barcodes 3912, QR codes 3914, and/or other machine-readable objects 3910, and optical reader(s) 8246, 8244, etc., the user 1002 may initiate barcode, QR code, and/or other scanning or machine reading operation(s). Such machine reading operation(s) may, for example be conducted using known and/or subsequent specifically-designed machine reading protocols.
Device(s) 8246, 8244, etc., having read the machine-readable object(s) 3910, the object(s) 3910 may by means of any or all of processors 8180, etc., comprised by the device 110, 112, interpret the read object(s), and as directed thereby initiate process(es) for generating and/or otherwise accessing data to be stored on one more tags or other storage devices 950 attached to the substrate 3900.
Depending on the uses and requirements of the poster 3900 and/or associated systems 100 and processes, at 904 one or more processors 8180, etc., of the user's device 110, 112 can determine whether content to be stored in the device(s) 950 attached to the poster 3900 are stored in, and to be read or otherwise retrieved from, and one or more of local and/or remotely-accessed memories. For example, processes initiated using the machine-read object(s) 3910 can facilitate typing from a keypad 8140 and/or touchscreen 8160, and subsequent storage in and retrieval from volatile (transient) and/or persistent (non-transient) memory of the device 110, 112, and/or reading of previously-stored data from memory(ies) 8116, 8118 on device 110, 112, and/or remotely stored and retrieved from any remote networked resource(s), such as any or all of resource(s) 912, 914, 110, 120, etc.
At 906, the device 110, 112 can access any/all desired content or other data stored in any networked resources.
At 908, any data accessed at 906, together with any data generated by or otherwise accessed locally on the device 110, 112 can be read and processed as needed for storage on the device(s) 950 of poster 3900. For example, content accessed from a variety of resources can be properly collated, (re-)formatted according to any desired protocol(s), and stored in volatile and/or persistent memory (e.g., one or more registers or buffers) 8116, 8118 on the device 110, 112.
When content and/or other data to be written to the tag(s) or other device(s) 950 of poster 3900 is ready to be written to the device(s), the user 1002 can place the device 110, 112 in sufficient proximity to the device(s) 850 to initiate NFC functions enabled by, for example, either or both of NFC (sub)systems 8132, 8102, using process(es) and/or protocols disclosed herein.
Data written to device(s) 950 at 910 can comprise any desired content and/or command or instruction signals. For example, such data can comprise content data useable by a plurality of user devices 110, 112 to display images and/or text thematically or otherwise logically related to human-interpretable information 3902 printed on the substrate 3900. For example, as noted above, data representing further information, including for example plot summaries and/or promotional deals, related to a move or other entertainment an be provided.
Such data may be stored directly on device(s) 950 attached to the poster 3900, and/or can be retrieved from remote networked resources 912, 914, etc. For example data stored on device(s) 950 can comprise either or both of content directly interpretable by one or more user devices 110, 112, to display information associated with information 3902, and URL or other address information adapted to direct such user device(s) 110, 112 to remote resource(s) 912, 914 etc. to access (further) content stored thereby.
In further aspects, the disclosure provides posters made in accordance with any of the foregoing methods.
In further aspects, the disclosure provides systems, methods, and computer programming products, including non-transient machine-readable instruction sets, for use in implementing such methods and making such posters.
Although the disclosure has been described and illustrated in exemplary forms with a certain degree of particularity, it is noted that the description and illustrations have been made by way of example only. Numerous changes in the details of construction and combination and arrangement of parts and steps may be made. Accordingly, such changes are intended to be included in the invention, the scope of which is defined by the claims.
Except to the extent explicitly stated or inherent within the processes described, including any optional steps or components thereof, no required order, sequence, or combination is intended or implied. As will be will be understood by those skilled in the relevant arts, with respect to both processes and any systems, devices, etc., described herein, a wide range of variations is possible, and even advantageous, in various circumstances, without departing from the scope of the invention, which is to be limited only by the claims.
This application claims all benefit, including priority, of U.S. Provisional Patent Application Ser. No. 61/729,849, filed 26 Nov. 2012 and entitled Creating Smart NFC Posters, the entire contents of which are incorporated herein by this reference.
Number | Date | Country | |
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61729849 | Nov 2012 | US |