CN106326963B - Information processing method and device - Google Patents

Abstract

The invention discloses information processing methods, which are applied to equipment, wherein the equipment at least comprises a 0 th switching unit and at least two identification units, wherein a 1 th instruction is obtained, the instruction is used for controlling the state of a 2 th switching unit, the 4 th switching unit is controlled to be switched from a 5 th state to a second state in response to a 3 th instruction, th information of an th identification unit in the at least two identification units is obtained in the second state of the th switching unit, and the th information is characterized by a th attribute of the equipment corresponding to the th identification unit, and the equipment capable of identifying different attributes of the same equipment is further disclosed in .

Description

Information processing method and device

Technical Field

The invention relates to an information processing technology, in particular to information processing methods and equipment.

Background

In the technical field of radio frequency identification, since an object can have multiple attributes, for example, the same pen brush can brush lines with different degrees of thickness, middle thickness, thin thickness and the like, the object can be identified only far from enough.

Disclosure of Invention

The embodiment of the invention provides information processing methods and devices, which can identify different attributes of devices.

The technical scheme of the embodiment of the invention is realized as follows:

the embodiment of the invention provides information processing methods, which are applied to equipment, wherein the equipment at least comprises a th switching unit and at least two identification units,

fetching an th instruction, the instruction being an instruction to control a state of a th switching unit;

controlling the th switching unit to switch from the th state to the second state in response to an th instruction;

in a second state of the th switching unit, obtaining th information of a th identification unit of the at least two identification units, the th information being characterized as a th attribute of the device corresponding to the th identification unit.

In the above solution, the apparatus further includes an th antenna unit, when the at least two identification units include the th identification unit, the th identification unit is located on the th side of the apparatus, and the th side is in contact with the th supporting body for supporting the apparatus;

when the th switching cell is in the th state,

detecting th acting force, wherein the th acting force is the pressure of the device acting on the th support body on the th surface;

generating the th command based on the th force;

controlling the th switching unit to switch from the th state to the second state, wherein a transmission path between the th antenna unit and the th identification unit of the device is in a conducting state;

acquiring information in the th identification cell;

transmitting the th information through the th antenna element;

in the th state, the th switching unit is in a non-connected state with the th identification unit, and in the second state, the th switching unit is in a connected state with the th identification unit.

In the above scheme, the method further comprises:

the at least two identification units further comprise a second identification unit, the second identification unit is positioned on a second surface of the equipment, the th surface is opposite to the second surface, the th identification unit and the second identification unit are provided with th switching units which respectively correspond to each other;

when the th switching unit connected with the th identification unit is in the second state, the th switching unit corresponding to the second identification unit is in the non-connected state;

and acquiring information in the second identification unit according to the information in the identification unit and a predetermined rule, wherein the information is characterized by the attribute of the device corresponding to the second identification unit.

In the above scheme, the method further comprises:

detecting an th operation, the th operation being a control operation of the th switching unit;

generating the th instruction based on an th operation;

controlling the th switching unit to switch from the th state to the second state,

in the th state, the th switching unit is connected with a second identification unit of the at least two identification units, a transmission path between the th antenna unit and the second identification unit of the device is conducted, th information in the second identification unit is obtained, and the th antenna unit is used for transmitting the th information;

in a second state, the th switching unit is connected to the th tag unit of the at least two tag units, the transmission path between the th antenna unit and the th tag unit is turned on, the th information in the th tag unit is obtained, and the th antenna unit transmits the th information.

In the above scheme, the method further comprises:

receiving the th instruction;

analyzing the th command to obtain a th analysis result, wherein the th analysis result is characterized in that the th switching unit is connected with the designated th identification unit;

controlling an th switching unit to connect with the assigned th ID unit to conduct a transmission path between the th antenna unit and the assigned th ID unit to obtain th information in the assigned th ID unit.

In the above solution, when there are M second identification units, the th identification unit and the M second identification units are sequentially arranged to obtain a th arrangement set;

the controlling the switching unit to switch from the state to the second state includes:

in the arrangement set, the switching unit is controlled to be connected with the second identification unit which is close to the identification unit in the M second identification units to be switched to the switching unit to be connected with the identification unit, or the switching unit is controlled to be connected with the second identification unit which is not close to the identification unit in the M second identification units to be switched to the switching unit to be connected with the identification unit.

In the above scheme, the method further comprises:

when the information in the th identification cell is acquired, changing the th information into second information;

the second information is transmitted.

The embodiment of the invention provides kinds of equipment, which at least comprises a th switching unit and at least two identification units, and the equipment further comprises:

an th fetch unit for fetching th instruction, which is an instruction for controlling the state of the th switching unit;

and the response unit is used for controlling the switching unit to switch from the state to the second state in response to the instruction, and acquiring information of a identification unit of the at least two identification units in the second state of the switching unit, wherein the information is characterized by attribute of the equipment corresponding to the identification unit.

In the above solution, the apparatus further includes an th antenna unit, when the at least two identification units include the th identification unit, the th identification unit is located on the th side of the apparatus, and the th side is in contact with the th supporting body for supporting the apparatus;

the response unit is further configured to detect a 1 th acting force when the switching unit is in a 0 state, wherein the 2 th acting force is a pressure of the device acting on the 4 th supporting body on the 3 th surface, generate the 6 th instruction based on the 5 th acting force, control the th switching unit to switch from a th state to a second state, and enable a transmission channel between a th antenna unit and a th identification unit of the device to be in a conducting state, acquire th information in the th identification unit, and transmit the th information through the th antenna unit;

in the th state, the th switching unit is in a non-connected state with the th identification unit, and in the second state, the th switching unit is in a connected state with the th identification unit.

In the above scheme, the at least two identification units further include a second identification unit, the second identification unit is located on a second surface of the device, the th surface is opposite to the second surface, the th identification unit and the second identification unit have their own corresponding th switching unit;

the th response unit is also used for enabling the th switching unit corresponding to the second identification unit to be in a non-connection state when the th switching unit connected with the th identification unit is in a second state;

and acquiring information in the second identification unit according to the information in the identification unit and a predetermined rule, wherein the information is characterized by the attribute of the device corresponding to the second identification unit.

In the above-mentioned scheme, the first step of the method,

the acquisition unit is used for detecting operation, the operation is a control operation on the switching unit, and the instruction is generated based on operation;

the response unit is used for controlling the switching unit to switch from the th state to the second state, wherein in the state, the switching unit is connected with a second identification unit of the at least two identification units, a transmission path between a th antenna unit and the second identification unit of the equipment is conducted, th information in the second identification unit is acquired, and the th information is transmitted through a th antenna unit;

in a second state, the th switching unit is connected to the th tag unit of the at least two tag units, the transmission path between the th antenna unit and the th tag unit is turned on, the th information in the th tag unit is obtained, and the th antenna unit transmits the th information.

In the above-mentioned scheme, the first step of the method,

the th fetch unit to receive the th instruction;

the response unit is used for analyzing the command to obtain a 0 analysis result, the 1 analysis result is characterized in that the th switching unit is connected with a specified th identification unit, and the th switching unit is controlled to be connected with the specified th identification unit so as to enable a transmission path between the th antenna unit and the specified th identification unit to be conducted, so that information in the specified th identification unit is obtained.

In the above solution, when there are M second identification units, the th identification unit and the M second identification units are sequentially arranged to obtain a th arrangement set;

the response unit is used for controlling the connection between the th switching unit and the second identification unit of the M second identification units close to the th identification unit to be switched to the th switching unit to be connected with the th identification unit in the permutation set, or controlling the connection between the th switching unit and the second identification unit of the M second identification units not close to the th identification unit to be switched to the th switching unit to be connected with the th identification unit.

In the foregoing solution, the th responding unit is further configured to:

when the information in the th identification cell is acquired, changing the th information into second information;

the second information is transmitted.

The information processing method and the equipment are applied to equipment, and the equipment at least comprises a th switching unit and at least two identification units, wherein a th instruction is obtained, the instruction is used for controlling the state of a th switching unit, the th switching unit is controlled to be switched from a th state to a second state in response to a th instruction, and th information of a th identification unit of the at least two identification units is obtained in the second state of an 5 switching unit, the th information is characterized as th attributes of the equipment corresponding to the th identification unit.

Drawings

FIG. 1 is a flow chart illustrating an implementation of an -th embodiment of an information processing method according to the present invention;

FIGS. 2(a) and 2(b) are schematic diagrams illustrating the arrangement and composition of ID tags in the die provided by the present invention;

FIG. 3 is a flowchart illustrating an implementation of a second embodiment of an information processing method according to the present invention;

FIG. 4 is a schematic diagram of an th circuit implemented in the smart pen provided by the present invention;

FIG. 5 is a flowchart illustrating an implementation of a third embodiment of an information processing method according to the present invention;

fig. 6(a) and 6(b) are schematic diagrams of specific implementations of an th circuit in the smart pen provided by the present invention;

fig. 7 is a schematic structural diagram of an embodiment of the apparatus provided in the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, and it should be understood that the preferred embodiments described below are only for the purpose of illustrating and explaining the present invention, and are not to be construed as limiting the present invention.

In the embodiments of the information processing method and the device provided by the invention, the related device can be an object with a plurality of attributes, such as a dice with a plurality of points, an intelligent pen capable of writing characters with a plurality of colors and/or brushing different thicknesses, and the like.

Example

The invention provides an embodiment of an information processing method, which is applied to equipment, wherein the equipment at least comprises a switching unit and at least two identification units, the equipment can be an object or electronic equipment with at least two attributes, such as a dice with 6 points or a smart pen capable of writing lines with different thickness, the switching unit can be specifically a switch circuit, the identification units can be passive electronic tags (ID tags), each ID tag is used for representing attributes of the equipment, dice can throw 6 points by taking the equipment as the dice example, then the equipment is pasted with 6 ID tags which are respectively used for representing 1-6 points, and the equipment can obtain the points represented by the corresponding tags by reading data in the ID tags.

Fig. 1 is a schematic view of an implementation flow of an th embodiment of an information processing method according to the present invention, as shown in fig. 1, the method includes:

101, obtaining an th instruction, wherein the instruction is used for controlling the state of a th switching unit;

here, the th command may be a th command generated when a user presses a button on the device is detected, or a th command generated when the device generates a force such as a pressure on a th support such as a desktop, or the device receives a command requesting a th switching unit to switch states from another electronic device such as a mobile phone.

And 102, in response to an th instruction, controlling the th switching unit to switch from the th state to the second state, and in the second state of the th switching unit, acquiring th information of a th identification unit in the at least two identification units, wherein the th information is characterized by th attributes of the equipment corresponding to the th identification unit.

The device switches the th switching unit from the th state to the second state in response to a th command, the second state is a connected state with an identification unit when the th state is a disconnected state with the th switching unit and the identification unit, the device knows the th information by reading the data in the ID tag, the th information represents the attributes of the device, in this case, the th switching unit corresponds to identification units, the th switching unit switches between the th state and the second state meaning that the th switching unit and the identification unit corresponding thereto switch between connected and disconnected states, the second state is that the th switching unit disconnects from the identification unit and connects to the identification unit corresponding thereto when the th state is a connected state with the th switching unit and the identification unit corresponding thereto, the second state is that the th switching unit disconnects from the identification unit and connects to the identification unit corresponding thereto when the switching unit is in a connected state with the dice , the switch device also knows the color of the dice , if the switch unit is connected to the dice switch , the switch between the dice switch and the switch , the color of the dice switch , the device can also know the attribute of the information of the second switch , if the dice switch between the read the dice or the read information of the dice under the second switch and the read information.

In this embodiment, when the th switching element is in the second state, the th information can be obtained by reading the data in the ID tag connected to the th switching element, and the th information represents attributes of the devices, so that this embodiment can realize the identification of different attributes of the same devices.

Example two

A second embodiment of the information processing method according to the present invention is based on the foregoing embodiment , and the technical solution is further described in step .

In this embodiment, taking the device as a die as an example, dice may throw 6 points, and considering that the dice is usually a hexahedron, each faces of the dice are labeled with ID tags (as shown in fig. 2 (a)), which are respectively used for representing points 1 to 6, and the device may obtain the points represented by the corresponding tags by reading data in the ID tags, that is, each ID tag is used for representing attributes of the dice itself.

In this embodiment, each ID tag is composed of a tag chip 2.1 and an antenna 2.2, wherein the tag chip interface 2.1.1 and the antenna interface 2.2.1 are not in contact with each other, and thus cannot read data in the ID tag, when the dice is not under stress, the data in the ID tag can be read, when the tag chip interface 2.1.1 and the antenna interface 2.2.1 are in contact with each other, the two interfaces of ID tags are in contact with each other and cannot be in contact with each other, which corresponds to a switch circuit for connecting or disconnecting the two interfaces, and the two interfaces can be in contact with each other or not through the switch circuit, which is a th switch unit, when the two interfaces are not in contact with each other, the th switch unit is in a th state, and when the two interfaces are in contact with each other, which is a 3978 th switch unit, which represents the number of antenna 357 and 35563226 of the antenna corresponding to the dice 35563290.

In this embodiment, when dice are rolled on th support such as a table, faces ( th faces) are required to contact the table, and the number of dice on the faces and the number of dice on the second face (face 2) opposite to the th face can be identified as follows.

FIG. 3 is a flowchart illustrating an implementation of a second embodiment of an information processing method according to the present invention; as shown in fig. 3, the method includes:

step 301, when the th switching unit is in the state, detecting a th acting force, wherein the th acting force is a pressure of the device acting on the th supporting body on the th surface;

here, it is assumed that the face of the die contacting the table top is face 1, and when face 1 does not contact the table top before the roll, since there is no force on face 1, the tag chip interface 2.1.1 of the ID tag (ID tag 1, th identification element) attached to face 1 cannot contact with the antenna interface 2.2.1, that is, the th switching element is in the th state, when the die is rolled and the roll is followed by face 1 contacting the th support, the die itself is pressed against the table top by face 1, and at this time, the die can detect the force acting on the table top, that is, the gravity.

Step 302, generating the instruction based on the acting force;

here, when the force of the die on the table surface is detected, an instruction for switching th switching cell state is generated.

Controlling the th switching unit to switch from the th state to the second state, wherein a transmission path between the th antenna unit and the th identification unit of the device is in a conducting state;

here, the die executes the command to switch the th switching unit from the th state to the second state, in the th state of the th switching unit, the tag chip interface 2.1.1 of the ID tag 1 and the antenna interface 2.2.1 are not in contact, and in the second state, the tag chip interface 2.1.1 of the ID tag 1 and the antenna interface 2.2.1 are in contact under the action of the die's own weight.

Step 304, obtaining the information in the identification unit;

here, when the tag chip interface 2.1.1 of the ID tag 1 and the antenna interface 2.2.1 can contact each other under the action of the gravity of the die itself, -th information in the ID tag 1 can be read, and the -th information can represent the number of points of the die corresponding to the ID tag 1.

Step 305, transmitting the information through the th antenna unit, wherein in the th state, the th switching unit and the th identification unit are in a non-connection state, and in the second state, the th switching unit and the th identification unit are in a connection state.

Here, when the radio frequency reader is located within the readable range of the die, the die transmits the th information read by the antenna 2.2 on the ID tag 1 to the radio frequency reader through the radio frequency identification RFID technology, so that the die can know the number of points represented by the ID tag 1 attached to the face 1 currently in contact with the table top.

In practical application, it is usually necessary to identify the number of dots on the second side opposite to the th side, i.e. the side 2, assuming that the ID tag attached to the side 2 is the ID tag 2, the ID tag 2 (second identification unit) has antennas 2.2( th antenna unit) corresponding to it and switching units corresponding to it.

The scheme for identifying the number of points on the face 2 is that when a th switching unit connected with a rd identification unit is in a second state, a th switching unit corresponding to the second identification unit is in a non-connected state, the information of the th identification unit in the second identification unit is acquired according to the th information and th predetermined rules in the th identification unit, the th information is characterized as th attributes of the device corresponding to the second identification unit, that is, when the label chip interface 2.1.1 of the ID label 1 pasted on the face 1 is connected with the antenna interface 2.2.1 under the gravity action of the die itself, since the face 2 does not contact the desktop, that is, no action force is supposed on the face 2, the label chip interface 2.1.1 of the ID label 2 pasted on the face 2 cannot contact the antenna interface 2.2.1 at the moment, but the number of points on the face 2 and the recognized face 1 can be obtained according to the predetermined rules of and the recognized, for example, the number of points on the face 2 is set as the fourth identification unit, wherein the number of points on the face 2 represents the RFID label 2, the number of points, the RFID label 2 is known, and the number of the label chip interface 2 is different points, wherein the number of the fourth identification unit represents the number of the label 2, the label chip label 2, the label included in the dice, the dice is preferably represents the number of the dice, the number of the dice represents the dice, the dice is preferably represents the number of the.

It can be seen from the foregoing solution that the th switching unit in this embodiment corresponds to only identification units, and the th switching unit switches between the th state and the second state means that the th switching unit and the identification unit corresponding thereto switch between the two states of connection and disconnection.

In the scheme, the physical characteristics of the dice, such as gravity, are utilized to identify the number of points represented by the ID labels attached to the face, which is in contact with the table top, of the dice, the number of points represented by the ID labels attached to any faces of the rest of the dice can be identified according to preset preset rules, the number of points is regarded as attributes of the dice, different numbers of points of the dice can be achieved, namely different attributes of the same objects are identified, the use experience of a user can be improved, and the product is humanized.

EXAMPLE III

A third embodiment of the information processing method according to the present invention is based on the foregoing embodiment , and the technical solution is further described in step .

In this embodiment, an apparatus is taken as an example of a smart pen, which includes a th circuit shown in fig. 4, where the circuit includes a th antenna unit, a th switching unit, and an ID tag chipset, where the ID tag chipset includes n ID tag chips, where n is a positive integer greater than or equal to 2.

FIG. 5 is a flowchart illustrating an implementation of a third embodiment of an information processing method according to the present invention; as shown in fig. 5, the method includes:

step 501, detecting th operation, wherein the th operation is control operation of th switching unit;

here, the th command may be a predetermined operation such as detecting a single click, a double click, or a predetermined number of clicks of a predetermined icon on the device by the user, the icon is used to switch the state of the th switching unit, as shown in fig. 6(a), to switch the state of the analog/digital switch chip, i.e., to which ID tag chip the analog/digital switch chip is connected, the th command may also be a th command generated when detecting a pressing operation of a button on the device by the user, as shown in fig. 6(b), a th switching unit circumscribed by a button, and the user may connect the th switching unit to a different ID tag chip in the ID tag chip set by the pressing operation of the button, i.e., by a manual operation, wherein the th switching unit may be a mechanical switch, such as an adjustable rotary button, as shown in fig. 6(b), or a switch circuit based on the analog/digital switch chip, as shown in fig. 6 (a).

Step 502, generating the instruction based on the operation;

here, when the th operation is detected, the apparatus generates a th command for causing the th switching unit to perform state switching.

Step 503, controlling switching unit to switch from state to second state, wherein in 0 state, the 1 switching unit is connected with the second identification unit of the at least two identification units, the transmission path between 2 th antenna unit and 382 th antenna unit of the device is conducted to obtain 3 information in the second identification unit, and the 5 information is transmitted through 4 th antenna unit, in second state, the switching unit is connected with th identification unit of the at least two identification units, the transmission path between the th antenna unit and the th identification unit is conducted to obtain information in the th identification unit, and the th information is transmitted through the th antenna unit.

Here, when the th state is that the th switching unit is in a connected state with a certain identification unit, the th switching unit disconnects the identification unit and connects with another identification units, that is, connection switching between the th switching unit and a different ID tag chip is realized.

When the device detects that the user presses the button, a switching instruction is generated, the connection between the switching unit and the ID tag chip 2 is disconnected in response to the switching instruction, the switching unit and the ID tag chip 1 are connected, at this time, the transmission path between the antenna unit and the ID tag chip 1 is enabled to be read, the data of the ID tag chip 1 currently connected with the switching unit is disconnected, the NFC encoder chip 1 is connected with the switching unit through the antenna unit, the NFC encoder chip 1 and the NFC encoder chip 1 are connected, the device currently connected with the switching unit can control the RFID tag chip 1 to be switched according to the specific switching operation result of the NFC encoder and the NFC encoder chip 2, and the NFC encoder chip 1 and the NFC encoder 23 can control the NFC encoder to switch the RFID tag chip 1 to the NFC tag according to the specific switching operation result of the NFC encoder chip and the NFC encoder 23, wherein the NFC encoder chip 23 and the NFC encoder chip 23 are connected to the NFC encoder chip 2.

In preferred embodiments of the present invention, when there are M second identification cells, the identification cell and the M second identification cells are sequentially arranged to obtain a 0 th arrangement set, and the controlling of the 1 switching cell to switch from the 2 th state to the second state includes controlling, in the 3 th arrangement set, the switching cell to be connected to the second identification cell, which is close to the th identification cell, of the M second identification cells to be connected to the th switching cell to be connected to the 36 th identification cell, or controlling the th switching cell to be connected to the second identification cell, which is not close to the th identification cell, of the M second identification cells to be connected to the th switching cell to be connected to the th identification cell.

In practical applications, considering that there are usually a plurality of ID tag chips in the ID tag chip set, the th switching unit may be connected to each ID tag chip sequentially in the order of the ID tag chip arrangement, or may be connected to the ID tag chips in a jumping manner not in the order of the ID tag chip arrangement, for example, as shown in fig. 6(a), the ID tag chip set includes 6(n ═ 6) ID tag chips, i.e., ID tag chip 1 and ID tag chip 2 … ID tag chip 6. th arrangement set, and ID tag chips 1 to 6 are arranged sequentially by numbers, assuming that the th switching unit is connected to ID tag chip 1, in the second state, the connection between the th switching unit and ID tag chip 1 is disconnected, and then the th switching unit is connected to the ID tag chip (i.e., ID tag chip 2) next to ID tag chip 1, or the th switching unit is connected to the ID tag chip not next to ID tag chip 1, and the ID tag chip is connected to the reader/writer 4, and the ID tag data is read from the rfid tag chip 23 or the reader/writer according to the ID tag attribute of the tag chip.

In an preferred embodiment of the present invention, when the th information in the th identification unit is acquired, the th information is changed to the second information, and the second information is transmitted, in practical applications, it is considered that the attribute of the device represented by each ID tag chip is not unchanged and can be changed, so when the device acquires the information in the ID tag chip, the information can be changed to information capable of representing another attributes of the device, for example, the information representing the thickness of the line in the ID tag chip 1 is changed to the second information, and the second information represents that the color of the line is red, that is, at this time, the device is connected with the ID tag chip 1 through the th switching unit, and a word with a red font can be written.

In addition, the smart pen can also communicate with other electronic equipment, for example, when an instruction which requires switching unit state switching and is sent by a mobile phone is received, the instruction is received, the instruction is analyzed to obtain th analysis result, the th analysis result is characterized in that th switching unit is connected with th identification unit specified by the other electronic equipment, the th switching unit is controlled to be connected with the specified th identification unit, so that a transmission path between the th antenna unit and the specified th identification unit is conducted to obtain th information in the specified th identification unit, for example, when the th switching unit is in the th state, the th switching unit is connected with the ID tag chip 2, when an instruction which requires switching and is sent by the mobile phone, the instruction is analyzed, the instruction which ID tag chip is next connected with the switching unit specified by the mobile phone is received, and if the ID tag chip is required to be connected with the switching unit, the ID tag 365 th chip is connected with the attribute analysis unit, the 365 ID tag chip can be obtained, and the ID tag data can be obtained.

From the above, the th switching unit in this embodiment corresponds to at least two identification units, and the switching of the th switching unit between the th state and the second state means that the th switching unit is connected to a different identification unit.

In the scheme, when the th switching unit is connected with an ID tag chip, the data of the ID tag chip is read to acquire the attribute information of the equipment represented by the identification chip, so that the attribute of the object is identified, and the th switching unit is switched to be connected with different ID tag chips, so that the different attributes of objects are identified, the user experience is improved, and the product is more humanized.

Example four

The device comprises at least a switching unit and at least two identification units, wherein the device can be an object or an electronic device with at least two attributes, such as a dice with 6 points or a smart pen capable of writing lines with different thicknesses, the switching unit can be specifically a switch circuit, the identification units can be passive electronic tags (ID tags), each ID tag is used for representing attributes of the device, for example, the device is a dice, dice can throw 6 points, the device is totally attached with 6 ID tags which are respectively used for representing the points from 1 to 6, and the device can obtain the points represented by the corresponding tags by reading data in the ID tags.

Fig. 7 is a schematic diagram of a composition structure of an embodiment of the apparatus provided by the present invention, as shown in fig. 7, the apparatus further includes an th obtaining unit 701, a th responding unit 702, wherein,

an th fetch unit 701 for fetching a th instruction, which is an instruction for controlling the state of the th switching unit;

the response unit 702 controls the switching unit to switch from the state to the second state in response to the instruction, and acquires information of a identification unit of the at least two identification units in the second state of the switching unit, wherein the information is characterized by an attribute of the device corresponding to the identification unit.

Wherein the device further comprises an th antenna element, when the at least two identification elements comprise an th identification element, the th identification element is located on the th side of the device, and the th side is in contact with a th support body for supporting the device;

the response unit 702 is further configured to detect a 1 th acting force when the switching unit is in a 0 state, wherein the 2 th acting force is a pressure of the device acting on the 4 th supporting body on the 3 th surface, generate the 6 th command based on the 5 th acting force, control the th switching unit to switch from a th state to a second state, and enable a transmission channel between a th antenna unit and a th identification unit of the device to be in a conducting state, acquire th information in the th identification unit, and transmit the th information through the th antenna unit;

in the th state, the th switching unit is in a non-connected state with the th identification unit, and in the second state, the th switching unit is in a connected state with the th identification unit.

The second identification unit is positioned on a second surface of the equipment, the th surface is opposite to the second surface, the th identification unit and the second identification unit are provided with th switching units which respectively correspond to each other;

the response unit 702 is further configured to, when the th switching unit connected to the th identification unit is in the second state, enable the th switching unit corresponding to the second identification unit to be in a non-connected state, and obtain the th information in the second identification unit according to the th information in the th identification unit and a th predetermined rule, wherein the th information is characterized by the th attribute of the device corresponding to the second identification unit.

Wherein the content of the first and second substances,

the acquisition unit 701 is used for detecting operation, the operation is a control operation on a switching unit, and generating a instruction based on operation;

the response unit 702 is used for controlling the switching unit to switch from the th state to the second state, wherein in the th state, the th switching unit is connected with the second identification unit of the at least two identification units, a transmission path between the th antenna unit and the second identification unit of the equipment is conducted, the th information in the second identification unit is acquired, and the th information is transmitted through the antenna unit;

in a second state, the th switching unit is connected to the th tag unit of the at least two tag units, the transmission path between the th antenna unit and the th tag unit is turned on, the th information in the th tag unit is obtained, and the th antenna unit transmits the th information.

Wherein the content of the first and second substances,

the th fetch unit 701 to receive the th instruction;

the response unit 702 is configured to parse the command to obtain a 0 th parsing result, where the 1 th parsing result is characterized in that the th switching unit is connected to a designated th tag unit, and control the th switching unit to be connected to the designated th tag unit, so as to enable a transmission path between the th antenna unit and the designated th tag unit to be conducted, so as to obtain th information in the designated th tag unit.

When the number of the second identification units is M, the th identification unit and the M second identification units are sequentially arranged to obtain a th arrangement set;

the response unit 702 is configured to control the th switching unit to connect to the second identification unit of the M second identification units that is close to the th identification unit and switch to the th switching unit to connect to the th identification unit in the permutation set, or control the th switching unit to connect to the second identification unit of the M second identification units that is not close to the th identification unit and switch to the th switching unit to connect to the th identification unit.

The th responding unit 702 is further configured to, when the th information in the th identification unit is acquired, change the th information to the second information, and transmit the second information.

In this embodiment, when the th switching element is in the second state, the th information can be obtained by reading the data in the ID tag connected to the th switching element, and the th information represents attributes of the devices, so that this embodiment can at least realize the identification of different attributes of devices.

Those skilled in the art will appreciate that the functions implemented by the processing units in the apparatus shown in fig. 7 may be understood with reference to the foregoing description of the information processing method. Those skilled in the art will appreciate that the functions of the processing units in the apparatus shown in fig. 7 may be implemented by a program running on a processor, or may be implemented by specific logic circuits.

The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units into only logical functional divisions, and other divisions may be possible in actual practice, e.g., multiple units or components may be combined, or may be integrated into another systems, or features may be omitted or not executed.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in places, may also be distributed on multiple network units, and some or all of the units may be selected according to actual needs to achieve the purpose of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into processing units, or each unit may be used as units individually, or two or more units may be integrated into units, and the integrated units may be implemented in the form of hardware, or in the form of hardware and software functional units.

It will be understood by those skilled in the art that all or part of the steps of the above method embodiments may be implemented by hardware related to program instructions, and that the program may be stored in computer readable storage media, and when executed, the program performs the steps of the above method embodiments, and the storage media includes various media capable of storing program codes, such as a removable storage device, a Read-Only Memory (ROM), a magnetic disk or an optical disk.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (14)

1, information processing method, applied to equipment, which at least comprises a th switching unit and at least two identification units,

fetching an th instruction, the instruction being an instruction to control a state of a th switching unit;

controlling the th switching unit to switch from the th state to the second state in response to an th instruction;

in a second state of the th switching unit, acquiring th information of a th identification unit of the at least two identification units, wherein the th information is characterized by a th attribute of the device corresponding to the th identification unit;

in the th state, the th switching unit is connected with a second identification unit of the at least two identification units, and a transmission path between the th antenna unit and the second identification unit of the device is conducted;

in the second state, the th switching unit is connected to the th identification unit of the at least two identification units, and the transmission path between the th antenna unit and the th identification unit is conducted.

2. The method of claim 1, wherein the -labeled cell is located on the -th side of the device, the -th side being in contact with a -th support for supporting the device;

when the th switching cell is in the th state,

detecting th acting force, wherein the th acting force is the pressure of the device acting on the th support body on the th surface;

generating the th command based on the th force;

controlling the th switching unit to switch from the th state to the second state, wherein a transmission path between the th antenna unit and the th identification unit of the device is in a conducting state;

acquiring information in the th identification cell;

transmitting the th information through the th antenna element;

in the th state, the th switching unit is in a non-connected state with the th identification unit, and in the second state, the th switching unit is in a connected state with the th identification unit.

3. The method of claim 2, further comprising:

the th identification unit and the second identification unit are provided with corresponding th switching units respectively;

when the th switching unit connected with the th identification unit is in the second state, the th switching unit corresponding to the second identification unit is in the non-connected state;

and acquiring information in a second identification unit according to the information in the identification unit and a predetermined rule, wherein the information in the second identification unit is characterized by a th attribute of the device corresponding to the second identification unit.

4. The method of claim 1, further comprising:

detecting an th operation, the th operation being a control operation of the th switching unit;

generating the th instruction based on an th operation;

controlling the th switching unit to switch from the th state to the second state,

in the th state, the th switching unit is connected with a second identification unit of the at least two identification units, a transmission path between the th antenna unit and the second identification unit of the device is conducted, th information in the second identification unit is obtained, and the th antenna unit is used for transmitting the th information;

in a second state, the th switching unit is connected to the th tag unit of the at least two tag units, the transmission path between the th antenna unit and the th tag unit is turned on, the th information in the th tag unit is obtained, and the th antenna unit transmits the th information.

5. The method of claim 1, further comprising:

receiving the th instruction;

analyzing the th command to obtain a th analysis result, wherein the th analysis result is characterized in that the th switching unit is connected with the designated th identification unit;

controlling an th switching unit to connect with the designated th ID unit to conduct a transmission path between the th antenna unit of the device and the designated th ID unit to acquire th information in the designated th ID unit.

6. The method of claim 4, wherein when there are M second identification elements, said th identification element is sequentially arranged with said M second identification elements, resulting in th arrangement set;

the controlling the switching unit to switch from the state to the second state includes:

in the arrangement set, the switching unit is controlled to be connected with the second identification unit which is close to the identification unit in the M second identification units to be switched to the switching unit to be connected with the identification unit, or the switching unit is controlled to be connected with the second identification unit which is not close to the identification unit in the M second identification units to be switched to the switching unit to be connected with the identification unit.

7. The method of claim 1, further comprising:

when the information in the th identification cell is acquired, changing the th information into second information;

the second information is transmitted.

8, kinds of information processing device, the device includes at least the switching unit and at least two identification units, the device also includes:

an th fetch unit for fetching th instruction, which is an instruction for controlling the state of the th switching unit;

an th response unit for controlling the 0 th switching unit to switch from the 1 th state to the second state in response to the th instruction, and acquiring 4 th information of a 3 th identification unit of the at least two identification units in the second state of the 2 th switching unit, wherein the 5 th information is characterized by an th attribute of the device corresponding to the 6 th identification unit, the th switching unit is connected with a second identification unit of the at least two identification units in the th state, a transmission path between the th antenna unit and the second identification unit of the device is conducted, and the th switching unit is connected with a th identification unit of the at least two identification units in the second state, and a transmission path between the th antenna unit and the th identification unit is conducted.

9. The apparatus of claim 8, wherein the th identification cell is located at th face of the apparatus, the th face being in contact with a th support for supporting the apparatus;

the response unit is further configured to detect a 1 th acting force when the switching unit is in a 0 state, wherein the 2 th acting force is a pressure of the device acting on the 4 th supporting body on the 3 th surface, generate the 6 th instruction based on the 5 th acting force, control the th switching unit to switch from a th state to a second state, and enable a transmission channel between a th antenna unit and a th identification unit of the device to be in a conducting state, acquire th information in the th identification unit, and transmit the th information through the th antenna unit;

in the th state, the th switching unit is in a non-connected state with the th identification unit, and in the second state, the th switching unit is in a connected state with the th identification unit.

10. The device of claim 9, wherein the second identification unit is located on a second side of the device, the th side is opposite to the second side, the th identification unit and the second identification unit have a th switching unit corresponding to each other;

the th response unit is also used for enabling the th switching unit corresponding to the second identification unit to be in a non-connection state when the th switching unit connected with the th identification unit is in a second state;

and acquiring information in a second identification unit according to the information in the identification unit and a predetermined rule, wherein the information in the second identification unit is characterized by a th attribute of the device corresponding to the second identification unit.

11. The apparatus of claim 8,

the acquisition unit is used for detecting operation, the operation is a control operation on the switching unit, and the instruction is generated based on operation;

the response unit is used for controlling the switching unit to switch from the th state to the second state, wherein in the state, the switching unit is connected with a second identification unit of the at least two identification units, a transmission path between a th antenna unit and the second identification unit of the equipment is conducted, th information in the second identification unit is acquired, and the th information is transmitted through a th antenna unit;

in a second state, the th switching unit is connected to the th tag unit of the at least two tag units, the transmission path between the th antenna unit and the th tag unit is turned on, the th information in the th tag unit is obtained, and the th antenna unit transmits the th information.

12. The apparatus of claim 8,

the th fetch unit to receive the th instruction;

the response unit is used for analyzing the command to obtain a 0 analysis result, the 1 analysis result is characterized in that the th switching unit is connected with a specified th identification unit, and the th switching unit is controlled to be connected with the specified th identification unit so as to enable a transmission path between a th antenna unit of the device and the specified th identification unit to be conducted, so that information in the specified th identification unit is obtained.

13. The apparatus of claim 11, wherein when there are M second identification elements, the th identification element is sequentially arranged with the M second identification elements, resulting in a th arrangement set;

the response unit is used for controlling the connection between the th switching unit and the second identification unit of the M second identification units close to the th identification unit to be switched to the th switching unit to be connected with the th identification unit in the permutation set, or controlling the connection between the th switching unit and the second identification unit of the M second identification units not close to the th identification unit to be switched to the th switching unit to be connected with the th identification unit.

14. The apparatus of claim 8, wherein the th response unit is further configured to:

when the information in the th identification cell is acquired, changing the th information into second information;

the second information is transmitted.

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