CN108470118B - Anti-excision device capable of being embedded into artificial intelligence behavior body - Google Patents

Abstract

The invention discloses a reverse removal device capable of being embedded into an artificial intelligence behavior body, which comprises a test module and N reverse removal modules, wherein each module is provided with an independent power supply system, and the test module is internally provided with sound control, fingerprint and iris test functions. The test module is used for executing the test when the shell of the artificial intelligence behavior body is opened, and controlling the shell to be opened after the sound control, the fingerprint and the iris test are passed. N anti-excision modules are respectively welded on an artificial intelligence action body, an acceleration sensor, a temperature sensor and a pressure sensor are arranged in each anti-excision module, and any violent disassembling modes such as collision, pressure, high temperature and the like can trigger alarm. A public key and a private key are stored in each anti-removal module, the anti-removal modules are in communication connection, once one or more modules are removed, other modules automatically generate a new set of keys, and the removed modules cannot read data encrypted through RSA in the modules because of the fact that a complete key system does not exist.

Description

Anti-excision device capable of being embedded into artificial intelligence behavior body

Technical Field

The invention relates to the technical field of artificial intelligence, in particular to a reverse excision device capable of being embedded into an artificial intelligence behavior body.

Background

With the rapid development of artificial intelligence technology, artificial intelligence behavior bodies are more and more likely to become important components of human life in the near future. The artificial intelligence behavior body has higher computing power than human beings and strong logic analysis capability, and can help human beings to complete various works and improve the quality of life of human beings, but human beings need to pay high attention to the potential threat of the artificial intelligence behavior body out of control.

The artificial intelligence behavior body mainly comprises a sensing system, an artificial intelligence decision-making system, a driving device and an energy supply system. The artificial intelligence decision system is equivalent to the brain of a human body, the sensing system is equivalent to the sensing organ of the human body, the driving device is equivalent to the trunk and the limbs of the human body, and the energy supply system is equivalent to the heart of the human body and provides energy for all parts of activities of the human body.

In order to prevent the uncontrolled behavior of the artificial intelligence behavior, researchers may set some modules inside the artificial intelligence behavior body to limit or prevent the behavior. When the out-of-control behavior occurs, the modules can perform operations such as power failure, data erasure, factory setting restoration and even self-destruction program starting. Protection of these modules is then particularly important. The existing protection device or anti-extirpation device is limited by the development level of the artificial intelligence technology, and the stage of worrying that the artificial intelligence behavior harms human is not reached. In other applications in real life, a plurality of anti-disassembly technologies are provided, for example, a POS machine is designed to be self-destructed by disassembling, a high-safety single chip microcomputer is combined with an electric monitoring circuit, a protection net is formed by related electric wiring of the monitoring circuit, then wiring of the protection net is mutually crossed and protected to cover the whole safety area, and meanwhile, an anti-disassembly contact structurally protects the safety area. If the POS machine is forcibly dismounted, the anti-dismounting contact point is loosened and displaced or the protection network wiring is punctured, abraded and short-circuited, the safety single chip microcomputer can quickly identify, trigger interruption and delete data and programs, so that the terminal cannot be normally used.

However, the anti-disassembly technology in the single-function scenario, such as the POS machine, can perform safe disassembly after grasping the attention of the disassembly operation. The artificial intelligence action body is characterized in that the anti-extirpation device is carried out in a multifunctional complex scene, a plurality of functional modules on the artificial intelligence action body are distributed on the action body, the physical range of the artificial intelligence action body is larger than that of the existing scene, and the modules are connected through circuits, so that the relevance of the modules is kept, and the relative independence of the modules is kept. The prior art does not have a related anti-ablation device.

Disclosure of Invention

The embodiment of the invention provides a reverse removal device capable of being embedded into an artificial intelligence behavior body, which is used for carrying out safety protection on each functional module in the artificial intelligence behavior body and has an excellent reverse removal effect.

The embodiment of the invention provides a reverse ablation device capable of being embedded into an artificial intelligence behavior body, which comprises: the test module and the N reverse removal modules; n is more than or equal to 2;

the testing module is used for executing a test when the artificial intelligence behavior body needs to open the shell, and controlling the shell to be opened after the test is passed;

the N anti-removal modules are respectively welded on the N functional modules of the artificial intelligence behavioral entity, a sub public key and a sub private key are stored in each anti-removal module, the N sub public keys form a public key of an anti-removal device, the N sub private keys form a private key of the anti-removal device, and the anti-removal modules are in communication connection;

and a power supply module, an acceleration sensor and a pressure sensor are arranged in each anti-removal module.

Further, the test module includes: the device comprises a voice control test module, a fingerprint test module and an iris test module.

Further, the test module is configured to execute a test when the artificial intelligence agent needs to open the housing, and control the housing to open after the test is passed, specifically:

when the shell needs to be opened by the artificial intelligence action body, the voice control testing module is used for executing voice control testing, the fingerprint testing module is used for executing fingerprint testing, the iris testing module is used for executing iris testing, and after the voice control testing, the fingerprint testing and the iris testing are all passed, the shell is controlled to be opened.

Further, before data extraction, any one of the N functional modules performs key verification, and if the verified key is not the public key and the private key of the anti-removal device, the data extraction is rejected; and if the verified key is the public key and the private key of the anti-extirpation device, allowing the data extraction.

Further, when any one of the N anti-ablation modules is ablated or communication is interrupted, the sub public keys and the sub private keys of the remaining N-1 anti-ablation modules are updated, and the updated N-1 sub public keys and the updated sub private keys respectively form the public key and the private key of the anti-ablation device.

Further, when acceleration data and pressure data obtained by an acceleration sensor and a pressure sensor in the reverse ablation module exceed preset threshold values, the reverse ablation module sends alarm information to a remote control terminal.

Furthermore, a temperature sensor is also arranged in each reverse ablation module;

and when the temperature data acquired by the temperature sensor exceeds a preset threshold value, the anti-removal module sends alarm information to a remote control terminal.

Furthermore, an audible and visual alarm is also arranged in each reverse ablation module;

the audible and visual alarm is used for sending an audible and visual alarm signal when the anti-removal module sends alarm information to the remote control terminal.

The embodiment of the invention has the following beneficial effects:

the anti-ablation device capable of being embedded into the artificial intelligence behavioral entity comprises a testing module and N anti-ablation modules, wherein each module is provided with an independent power supply system, and the testing module is internally provided with voice control, fingerprint and iris testing functions. The test module is used for executing the test when the shell of the artificial intelligence behavior body is opened, and controlling the shell to be opened after the sound control, the fingerprint and the iris test are passed. N anti-excision modules are respectively welded on an artificial intelligence action body, an acceleration sensor, a temperature sensor and a pressure sensor are arranged in each anti-excision module, and any violent disassembling modes such as collision, pressure, high temperature and the like can trigger alarm. A public key and a private key are stored in each anti-removal module, the anti-removal modules are in communication connection, once one or more modules are removed, other modules automatically generate a new set of keys, and the removed modules cannot read data encrypted through RSA in the modules because of the fact that a complete key system does not exist. Compared with the single scene reverse ablation in the prior art, the technical scheme of the invention ensures the reverse ablation of the artificial intelligence behavior body through three layers of protection, and improves the safety of the artificial intelligence behavior body.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of a reverse ablation device that may be embedded within an artificial intelligence agent.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, it is a schematic structural diagram of an embodiment of the anti-ablation device that can be embedded inside an artificial intelligence behavioral entity provided by the present invention. As shown in fig. 1, the apparatus includes: the test module and the N reverse removal modules; n is more than or equal to 2.

The testing module is used for executing testing when the shell of the artificial intelligence behavior body needs to be opened, and controlling the shell to be opened after the testing is passed.

In this embodiment, the test module includes: the device comprises a voice control test module, a fingerprint test module and an iris test module. The test module is used for when the artificial intelligence action body need open the shell, carries out the test to after the test passes, the control shell is opened, specifically is: when the shell needs to be opened by the artificial intelligence behavioral entity, the voice control test is executed through the voice control test module, the fingerprint test is executed through the fingerprint test module, the iris test is executed through the iris test module, and the shell is controlled to be opened after the voice control test, the fingerprint test and the iris test are all passed.

In this embodiment, the shell of the artificial intelligence behavioral entity can be opened only after all the test passes the voice control test, the fingerprint test and the iris test, and the access difficulty of removing the key module from the outermost layer is guaranteed.

The N anti-removal modules are respectively welded on the N functional modules of the artificial intelligence action body, a sub public key and a sub private key are stored in each anti-removal module, the N sub public keys form a public key of the anti-removal device, the N sub private keys form a private key of the anti-removal device, and the anti-removal modules are in communication connection. An acceleration sensor, a temperature sensor and a pressure sensor are arranged in each anti-ablation module. The value of N may be set according to the actual condition of the key function module.

In this embodiment, when acceleration data and pressure data acquired by an acceleration sensor and a pressure sensor in the anti-ablation module exceed a preset threshold, the anti-ablation module sends alarm information to the remote control terminal. In addition, as an example of the present embodiment, each anti-ablation module is further provided with a temperature sensor; when the temperature data acquired by the temperature sensor exceeds a preset threshold value, the anti-removal module sends alarm information to the remote control terminal.

In this embodiment, the sensor is as the second layer protection of anti excision module, when detecting unusual data, sends alarm information to distant control terminal, and distant control terminal can carry out emergency measures such as outage or data erasure to artificial intelligence action body.

As an example of this embodiment, an audible and visual alarm is further disposed in each anti-removal module; the audible and visual alarm is used for sending an audible and visual alarm signal when the anti-removal module sends alarm information to the remote control terminal. When the alarm information is sent, the anti-extirpation module can also send an alarm to people nearby the artificial intelligence behavior body through the audible and visual alarm.

In this embodiment, any one of the N functional modules performs key verification before data extraction, and rejects the data extraction if the verified key is not the public key and the private key of the anti-removal device; and if the verified key is the public key and the private key of the anti-extirpation device, allowing the data extraction.

In this embodiment, when any one of the N anti-ablation modules is ablated or communication is interrupted, the sub public keys and the sub private keys of the remaining N-1 anti-ablation modules are updated, and the updated N-1 sub public keys and the updated sub private keys respectively form the public key and the private key of the anti-ablation device.

In this embodiment, if the second layer is broken, one or more modules are removed, and since the modules each have a sub-private key and a sub-public key, all modules must be collected to obtain valid information, data of the functional module cannot be extracted at this time. In addition, since each module can communicate with the central module (the central module is any one of the N anti-removal modules, which can be set by the user or default), when one module is removed, the main module will immediately know, and similarly, if the main module is removed, the other modules will also know. At the moment, the system changes the sub public keys and the sub private keys of the rest modules to form new public keys and private keys, so that the removed module information can never be obtained unless the RSA encryption password of the system is cracked, and the decryption technology cannot be realized at the present stage.

As an example of the embodiment, the public key and the private key may be, but are not limited to, data encrypted by using an RSA encryption algorithm.

Therefore, the anti-ablation device capable of being embedded into the artificial intelligence behavioral entity provided by the embodiment of the invention comprises a testing module and N anti-ablation modules, wherein each module is provided with an independent power supply system, and the testing module is internally provided with voice control, fingerprint and iris testing functions. The test module is used for executing the test when the shell of the artificial intelligence behavior body is opened, and controlling the shell to be opened after the sound control, the fingerprint and the iris test are passed. N anti-excision modules are respectively welded on an artificial intelligence action body, an acceleration sensor, a temperature sensor and a pressure sensor are arranged in each anti-excision module, and any violent disassembling modes such as collision, pressure, high temperature and the like can trigger alarm. A public key and a private key are stored in each anti-removal module, the anti-removal modules are in communication connection, once one or more modules are removed, other modules automatically generate a new set of keys, and the removed modules cannot read data encrypted through RSA in the modules because of the fact that a complete key system does not exist. Compared with the single scene reverse ablation in the prior art, the technical scheme of the invention ensures the reverse ablation of the artificial intelligence behavior body through three layers of protection, and improves the safety of the artificial intelligence behavior body.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (3)

1. An anti-extirpation device that can embed artificial intelligence action internal portion which characterized in that includes: the test module and the N reverse removal modules; n is more than or equal to 2; the test module comprises a voice control test module, a fingerprint test module and an iris test module;

when the shell of the artificial intelligence behavior body needs to be opened, executing a voice control test through a voice control test module, executing a fingerprint test through a fingerprint test module, executing an iris test through an iris test module, and controlling the shell to be opened after the voice control test, the fingerprint test and the iris test are passed;

the N anti-removal modules are respectively welded on the N functional modules of the artificial intelligence behavioral entity, a sub public key and a sub private key are stored in each anti-removal module, the N sub public keys form a public key of the anti-removal device, the N sub private keys form a private key of the anti-removal device, and the anti-removal modules are in communication connection; when any one of the N anti-removal modules is removed or communication is interrupted, the sub public keys and the sub private keys of the remaining N-1 anti-removal modules are updated, and the updated N-1 sub public keys and the updated sub private keys respectively form the public key and the private key of the anti-removal device;

before data extraction, any one of the N functional modules executes key verification, and if the verified key is not the public key and the private key of the anti-removal device, the data extraction is refused; if the verified key is the public key and the private key of the anti-removal device, the data extraction is allowed;

each anti-removal module is internally provided with a power module, an acceleration sensor and a pressure sensor; when acceleration data and pressure data obtained by an acceleration sensor and a pressure sensor in the reverse ablation module exceed preset thresholds, the reverse ablation module sends alarm information to a remote control terminal.

2. The reverse ablation device embedded in an artificial intelligence behavioral entity according to claim 1, wherein a temperature sensor is further disposed in each reverse ablation module;

and when the temperature data acquired by the temperature sensor exceeds a preset threshold value, the anti-removal module sends alarm information to a remote control terminal.

3. The anti-ablation device embedded in an artificial intelligence behavioral entity according to claim 1 or 2, characterized in that an audible and visual alarm is further arranged in each anti-ablation module;

the audible and visual alarm is used for sending an audible and visual alarm signal when the anti-removal module sends alarm information to the remote control terminal.

Images