Disclosure of Invention
The invention provides an electronic device for responding to a multi-source remote controller, aiming at the problems, and the electronic device comprises:
the processor is used for executing tasks of all modules in the electronic equipment;
the communication module has a wireless communication function and is used for receiving a control instruction sent by the multi-source remote controller;
the storage module is used for storing an information configuration list, and the information configuration list comprises configuration information corresponding to the control instruction; the storage module can be contained in the electronic equipment or contained in an external device connected with the electronic equipment through a communication network;
the working module is used for responding to control instructions sent by two different remote controllers according to the information configuration list and generating different customized interfaces according to configuration information corresponding to the control instructions in the information configuration list;
and the output module is used for outputting the customized interface and the execution result of the remote controller control instruction.
Preferably, the control instruction includes a remote controller ID, and the information configuration list includes a remote controller ID and configuration information corresponding to the remote controller ID.
Preferably, the working module comprises an interface generating module and an information response module, the information response module is used for responding to control instructions sent by at least two different remote controllers, and the interface generating module calls corresponding configuration information in the information configuration list according to the control instructions and generates a customized interface.
Preferably, the electronic device further includes a query module, and the query module may search the corresponding configuration information, used for generating the customized interface, of the work module according to the control instruction and the configuration information corresponding to the control instruction in the information configuration list.
Preferably, the electronic device further includes a first information editing module, configured to edit the information configuration list.
Preferably, the content of the information configuration list further includes a remote controller priority corresponding to the corresponding remote controller ID, and the electronic device further includes a determining module configured to determine, when receiving the remote controller control instruction, whether a remote controller signal having a higher priority for the remote controller ID is currently occupied, where if the remote controller signal has the higher priority, the current remote controller signal is delayed or ignored, and if the remote controller signal has no higher priority, the current remote controller instruction is executed.
Preferably, the interface configuration information includes interface elements, control logic, navigation logic, and display rules.
Preferably, the communication module integrates one or more of bluetooth, Zigbee, Wi-Fi, infrared, radio frequency, or other communication protocols.
Preferably, the electronic device is one of a doctor-patient terminal, a teaching device, a digital television, a robot and a game device.
Preferably, the multi-source remote controller may be composed of one or more of a smart phone, a tablet computer, or a terminal with a physiological signal acquisition function.
Preferably, the electronic device further comprises an activation module, connected to the communication module, for changing an operating mode of the processor or activating other hardware modules and changing a power consumption state of the electronic device; the starting module further guides an operating system containing the corresponding working module according to the information configuration list or executes the corresponding working module under the condition of no operating system.
Preferably, the electronic device further comprises an authentication module, connected to the communication module, for verifying the validity of the information received by the communication module.
The present invention is directed to the above problems, and further provides a service system including an information terminal, an electronic device, and a multi-source remote controller, which are connected to each other, wherein the electronic device includes:
the processor is used for executing tasks of all modules in the electronic equipment;
the communication module has a wireless communication function and is used for receiving the ID and the control instruction of the remote controller sent by the multi-source remote controller;
the storage module is used for storing an information configuration list, and the information configuration list comprises configuration information corresponding to the ID of the remote controller and the control instruction;
the working module can respond to the remote controller IDs and the control instructions sent by at least two different remote controllers and generate different customized interfaces according to the configuration information corresponding to the remote controller IDs and the control instructions in the information configuration list;
and the output module is used for outputting the customized interface and the execution result of the remote controller control instruction.
Preferably, the information terminal comprises a second information editing module for editing the information into a configuration file.
Preferably, the information terminal further comprises a first transmission module for transmitting the configuration file to the electronic device.
Preferably, the multi-source remote controller comprises a third information editing module for editing the information into a configuration file.
Preferably, the multi-source remote controller further comprises a second transmission module for transmitting the configuration file to the electronic device.
Preferably, the electronic device of the service system further includes an inquiry module, and the inquiry module can search the interface configuration information used by the working module to generate the customized interface from one or more information terminals of the service system according to the remote controller ID, the control instruction, and the configuration information corresponding to the remote controller ID and the control instruction in the information configuration list.
The invention also provides a method for responding to the multisource remote controller aiming at the problems, which is applied to electronic equipment and comprises the following steps: receiving a remote controller ID, and communicating with a remote controller with control authority by referring to an information configuration list, wherein the content of the information configuration list at least comprises the remote controller ID, interface configuration information corresponding to the ID, and a remote control priority corresponding to the corresponding remote controller ID; inquiring the priority according to the ID of the remote controller; judging whether higher priority occupation exists at present; if the remote controller is occupied by a higher priority, delaying or ignoring the current remote controller signal; and if no higher priority is occupied, informing the processor to execute the current remote controller instruction.
Based on the above problems, the invention provides the electronic device and the method for responding to the multisource remote controller, which can intelligently respond to different remote controllers according to ID technology, not only provide the simplest and practical interfaces for different remote controller users, but also can be used as a safety mechanism to be forbidden or not display certain interface elements.
Detailed Description
Fig. 1 is an environmental diagram of an electronic device according to the present invention. In the present embodiment, the electronic device is a doctor-patient terminal installed in a hospital, for example.
In a hospital environment, a medical information network generally includes a plurality of electronic devices (E01, E02), a multi-source remote controller (R01, R02, R03), and a plurality of information terminals such as servers and workstations, one of which is shown (S01). The electronic devices (E01, E02) are generally arranged at hospital ward doctor-patient workstations, which are convenient for patients to inquire information and meet the information and life requirements of hospital wards. The multi-source remote controllers (R01, R02, R03) are held by doctors, nurses, and patients, respectively.
In another embodiment, the electronic devices (E01, E02) may be teaching devices installed in a school environment, and the multi-source remote controllers (R01, R02, R03) are respectively held by teachers and students; or the electronic equipment (E01, E02) is game equipment, and the multi-source remote controllers (R01, R02, R03) are respectively held by different players and administrators; alternatively, the electronic devices (E01, E02) are conference devices, and the multi-source remote controllers (R01, R02, R03) are held by a manager, a speaker, and a participant, respectively. Moreover, according to the actual situation of the electronic device, the multi-source remote controller can be composed of one or more of a smart phone, a tablet computer or a terminal with a physiological signal acquisition function. The embodiments of the present invention may be suitable for similar situations where one device has multiple rights or multiple devices have multiple rights, and are not described in detail here.
Fig. 2 is a schematic structural diagram of an electronic device E01 in the present invention. In the present embodiment, the electronic device E01 includes at least a processor 11, a communication module 12, a storage module 13, an operation module 14, a judgment module 15, and an output module 16.
The processor 11 is used for executing the tasks of the modules in the electronic device E01.
The communication module 12 has a wireless communication function for receiving a control command from one or more multi-source remote controllers (R01, R02, R03), the control command including a remote controller ID. In this embodiment, the communication module 12 may integrate, for example, one or more of bluetooth, Zigbee, Wi-Fi, infrared, radio frequency, or other communication protocols.
The storage module 13 is used for storing various information required for the operation of the electronic device E01. In the present embodiment, the storage module 13 includes at least an information arrangement list including a remote controller ID and arrangement information corresponding to the remote controller ID. The storage module 13 may be included in the electronic device E01 or an external device connected to the electronic device E01 through a communication network.
The information configuration list may have roughly these several cases, the configuration list of the first case containing the name or reference of the executive or execution module corresponding to the particular remote ID and control instruction combination. The operation module 14 finds the corresponding program or module in the configuration list based on the remote controller ID and the control instruction received from the communication module 12 (activates the corresponding module or program if it is not activated), and further forwards the control instruction to the corresponding program or module. For example in the case of the aforementioned ward terminal. The remote control commands for the attending physician and the on-duty physician may correspond to a physician workstation program and the remote control commands for the patient may correspond to a patient workstation program. An example of the configuration information list is shown in the following table.
The following table is an example of a list of configuration information that may be used to invoke different applications to generate remote control responses using the remote ID in combination with control commands.
Instruction 1 may not be a fixed byte sequence, but a byte sequence that meets certain conditions, such as an expression form of a 128-bit byte sequence with 011 first 3 bits. In this scenario, the execution module may even be deployed on the network, the user subscribes to the corresponding application service (configuration process) in advance, and the system downloads the corresponding program according to the remote ID and executes the service. For example, a future digital television can be used as a home computing platform, a user can remotely control an application to be used by the user as long as downloading a proper remote controller program from a mobile phone and reasonably managing the program, configuration information of the user can be deployed in the cloud through a channel of an operator, and through the combination of dynamic remote control and configuration, a very personalized application can be obtained, and the navigation is simple and the use is convenient.
In the second case, only one program is used to respond to different control commands from different remote controller IDs, but different interfaces are generated according to configuration information corresponding to the corresponding remote controller IDs contained in the configuration list. For example, on a radiology reading application terminal, the list of information configurations for the remote controls of the attending physician and the reporting physician may be as follows:
the third scenario does not include interface configuration information in the configuration list, but can determine its priority and then find a match between the remote ID and a particular user. The configuration information of the corresponding user can be further found through the user ID. Thus, the remote ID and interface configuration information are not actually in a list. This is the case, for example, in the case of the ward hospital terminal described above, since the ward patient is on the move and the remote controller is reusable, the remote control response configuration information related to the patient should not be fixedly bound to the remote controller ID, but a remote controller is assigned to a patient each time he is admitted, the remote controller ID is bound to the patient ID, and the information of the patient's home country, age, taste, condition, etc. is registered at the time of registration. When the patient uses the remote controller, the query module of the electronic equipment can call out the registered information such as native, age, hobby, illness state and the like according to the patient ID bound with the remote controller ID, and return personalized remote control response interface configuration information according to the interface generation rule of the system.
The following table is an example of a more detailed doctor-patient terminal information configuration list, and other items can be added on the basis of the configuration list.
Remote controller ID |
Interface element |
Information base |
Priority level |
Others |
R01 |
Doctor's advice editing interface |
Sheet ×× |
doctor-Gao |
Attending physician |
R02 |
Medical advice viewing interface and medical history viewing interface |
Money ×× |
doctor-Gao |
Doctor on duty |
R03 |
Doctor's advice confirmation interface |
Plum ×× |
Expand and middle |
|
R14 |
Inquiry interface (doctor's advice, bill) |
Wang ×× |
Patient-low |
|
In another embodiment, the information arrangement list may be stored in the information terminal S01, and as shown in the following table, the electronic device E01 may download or access the corresponding information arrangement list through a network. For example, the electronic device E01 need only save the portion corresponding to its ID, as shown in the above table.
The working module 14 can respond to at least control instructions sent by two different remote controllers, and generate different customized interfaces according to configuration information corresponding to the control instructions in the information configuration list. In this embodiment, the working module 14 includes an interface generating module (not labeled) and an information response module (not labeled), where the information response module is configured to respond to control instructions sent by at least two different remote controllers, and the interface generating module invokes corresponding configuration information in the information configuration list according to the control instructions to generate a customized interface. Generally speaking, the information response module is used for responding at least two different remote controller IDs and control instructions, and the interface generation module invokes corresponding interface configuration information in the information configuration list according to the remote controller IDs and the control instructions to generate a customized interface. The content of the information configuration list at least comprises a remote controller ID, interface configuration information and priority.
In this embodiment, the configuration information includes interface elements, control logic, navigation logic, and display rules that change with the configuration information, and is used to define how user interface elements in the corresponding configuration respond to the ID and operation instructions of the remote controller, perform a switch jump of the user interface, or execute a specific function call, or change the display of a specific interface element, and thereby complete a task of multi-user interface interaction, such as multi-user game and teaching interaction.
In this embodiment, the interface element change refers to different interface elements in the command operation interfaces of different remote controllers, or different changes of the same interface element. For example, in a two-player game, different remote controls operate different characters and pieces. Or in teaching, teachers and students operate different areas or elements on the electronic whiteboard.
The control logic change means that the response of the electronic device E01 to the same control command may vary depending on the ID of the remote control, for example, the first interface may be an order editing interface for the attending physician of the patient, but may be an order and medical history viewing interface for the attending physician.
The navigation logic change means that for different remote controllers, interface navigation changes due to different identities of users, for example, a doctor on duty sends a specific instruction and then enters a medical record viewing interface, but the doctor in charge sends the instruction and then enters a medical record writing interface.
The change of the display rule means that accesses to different control IDs are displayed by different methods for the same display content, and for example, the display modes such as bold font, underline, and highlight are used. For example, the portion of the order that is to be completed by the attending physician is highlighted (e.g., highlighted) primarily for the attending physician. For the doctor on duty, there is no such requirement. On the other hand, the display rule may also refer to a change in the display order, for example, the description of the digestive tract-related symptom is displayed first for the digestive physician.
In the present embodiment, the remote controller ID may not directly correspond to the specific interface configuration (but may directly correspond to the specific interface configuration). This is because the matching of the remote control to the user may be done by other means, such as RFID technology, and the information of the user and the interface configuration is stored in the memory module. Thus, in actual operation, the system may indirectly find the user ID or other related information through the remote ID first, and further find the configuration information of the user interface through the user ID, which may have a case of indirectly invoking the interface configuration.
In a more complex environment, the interface is not only a pre-configured interface called based on the remote ID, but also an interface responding to the remote ID remote control command is dynamically generated according to the remote ID, specific context information, such as the current time, place, session state, and the like, and a preset rule to dynamically query interface configuration information or an application program or an application module that should be called. This case belongs to the third of the aforementioned three cases. For example, after receiving the ID of the remote controller (the ID may correspond to a doctor), the electronic device uploads the ID and information of the current location, such as a certain sickbed in a certain ward, a certain patient, and the current time, to an information terminal of a network, executes a specific rule on the information terminal, makes a comprehensive judgment according to the information of the relevant doctor, patient, time, and the like, and dynamically generates a response interface. For example, if the doctor is judged to be the main doctor of the patient and the ward round time is currently available, a ward round record entry interface and an order entry interface are dynamically generated; if the doctor is on duty, the doctor calls the first note of the illness, the recent record of the course of illness, the examination result and the browsing interface of the doctor's advice. Such intelligent applications may be important for such multi-source remote control because the remote controller has an ID and can be directed to different scenes, and there is an intelligent demand.
In this embodiment, the operational module 14 implements a security mechanism for data access or control based on the remote control ID by disabling or not displaying certain interface elements.
The judging module 15 is configured to judge whether a remote controller with a higher priority is currently occupied when receiving a command of the remote controller, where if the remote controller is occupied with the higher priority, the current remote controller signal is delayed or ignored. And if no higher priority is occupied, informing the processor to execute the current remote controller instruction. In the present embodiment, the higher priority includes the same priority already occupied and a priority of a higher layer in the setting.
The output module 16 is configured to output the customized interface and the execution result of the remote control command, which can also be understood as an execution result of the output determination module 15.
In the present embodiment, the output module 16 includes a display output module (e.g., a display screen), and may also include one or more of a sound output module (e.g., a sound box), a light output module (e.g., an LED), and a temperature output module (e.g., adjusting the temperature of an air conditioner). With the development and popularization of the internet of things and intelligent household appliances in the future, the output mode included in the output module 16 can be correspondingly expanded.
In the present embodiment, when the physiological sensor is disposed in the remote controller in a hospital environment, the output module 16 is also considered as extending it to the display screen of the remote controller through the connection of the communication module 12, so as to more clearly view the detection result of the physiological sensor. For the remote controller, the corresponding description is referred to below.
In this embodiment, the electronic device E01 may further include an inquiry module (not shown) or a first information editing module (not shown), according to actual situations. The query module can search the corresponding configuration information of the working module for generating the customized interface according to the control instruction and the configuration information corresponding to the control instruction in the information configuration list. The first information editing module can be used for editing an information configuration list.
The medical information is generally stored in a medical information network, and the work module 14 of the hospital doctor-patient workstation needs to obtain the configuration information of the interface from the medical information network through the query module. For example, in the case that the remote controller is held by a doctor, the information returned by the query module may correspond to different authorities because the doctor is a main doctor, an on-duty doctor, or other different roles, so that the work module 14 generates different remote control response interfaces; for the case where the remote control is held by the patient, the information returned by the query module may vary depending on the country, age, preferences, and condition of the patient's registration, so that the work module 14 generates different remote control response interfaces for the patient. It should be noted that although the main doctor and the on-duty doctor use different response interfaces, the function sets that they need to access are similar, but because the roles are different, the probability of using different functions is different, so the system intelligently selects the remote control response interface for them, but the work module 14 invokes the same program (or application module) to generate response interfaces for them; similarly, the same program (or application module) is used to generate the remote response interfaces for different patients, but different programs or application modules may be invoked by the work module 14 for both the physician and the patient as indicated by the configuration information.
In this embodiment, the electronic device E01 may further include a starting module (not shown) connected to the communication module 12 and connected to the communication module 12 for changing the operating mode of the processor or starting other modules and changing the power consumption state of the electronic device E01; the starting module further guides an operating system containing the corresponding module according to the information configuration list or executes the corresponding module under the condition of no operating system.
In this embodiment, the electronic device E01 may further include an authentication module (not shown) connected to the communication module 12 for verifying the validity of the information received by the communication module 12 according to actual conditions.
The authentication modes mainly include the following modes, firstly, the user is authenticated in the transmission process, for example, the user is required to input information such as ID, password and the like; or peer device authentication, e.g., by certificate-based, U-shield, remote control protocol, etc.; one way is to include information in the configuration file that describes its legitimacy, for example, by extracting a digest of the configuration content with the encrypter's key and including it in the configuration file, and the electronic device E01 can check whether the configuration content is legitimate with the encrypter's public key. The other mode is to adopt an instant security policy mode, and to transmit a time-efficient password or connection authorization information through short messages and telephones.
Referring to fig. 3, a flowchart illustrating a workflow of the electronic device E01 in fig. 2 is shown.
In step S201, the communication module 12 receives the remote controller ID, and connects with the remote controller (R01, R02, R03) having the control authority with reference to the information configuration list.
In the present embodiment, the communication module 12 communicates via RFID or other short-range wireless communication network protocols, such as bluetooth, ZIGBEE, and the like. In one common embodiment, when the user acts as a remote control via a smartphone, the remote control ID may be included in the bluetooth communication.
The information arrangement list is stored in the information terminal S01 or the storage module 13 of the electronic device E01, and is collectively set, managed, and maintained by the medical staff. For example, after the patient is discharged, the related rights of the mobile phone remote controller are cancelled.
The information configuration list at least comprises a remote controller ID, interface configuration information corresponding to the remote controller ID and priority. And dynamically generating a customized interface according to the ID of the remote controller by the interface configuration information.
In step S202, the processor 11 queries the information configuration list for a corresponding priority according to the received remote controller ID.
In step S203, the determination module 15 determines whether there is currently a higher priority occupancy.
In the present embodiment, the higher priority includes the current priority of the preferential occupation and the priority of the higher layer at the time of setting. If there is no higher priority, step S204 is executed, and if there is a higher priority, step S205 is executed.
In step S204, the work module 14 invokes or dynamically generates a corresponding user interface according to the remote ID.
In step S205, the communication module 12 receives and notifies the processor 11 of execution of an operation instruction of the remote controller, and the output module 16 outputs a processing result.
In step S206, the processor 11 delays or ignores the control instruction of the current remote controller (R01, R02, R03).
Description of multisource remote controller groups (R01, R02, R03):
for the multi-source remote controller group (R01, R02, R03) in fig. 1, the remote controllers therein generally include one or more of the remote controller of the electronic device E01 itself, a mobile phone registered in association with the hospital, and a remote controller incorporating a physiological sensor.
Where each remote has its unique remote ID, e.g., R01, R02. The ID of the remote controller generally adopts a one-dimensional or two-dimensional bar code or a magnetic card, and has a scanning identification function. In other embodiments, the remote ID may be transmitted by other short-range wireless communication network protocols, such as bluetooth, ZIGBEE, and the like.
The physiological sensor is arranged on the remote controller and is used for directly measuring or inputting the physiological parameters of the patient. The physiological parameters include electrocardio, blood pressure, blood oxygen, temperature and respiration.
In the present embodiment, the term "physiological sensor is disposed on the remote controller" is understood to mean that a portable electrocardiograph (similar to a mobile phone) is provided, and the portable electrocardiograph has the remote control function of the bedside doctor-patient workstation, namely the electronic device E01. When a doctor checks a patient, the bedside doctor-patient workstation automatically jumps to a historical electrocardio graphic playback interface of the patient as soon as a button is pressed. Therefore, the doctor can conveniently compare the historical signal waveform with the current examination waveform, and can also perform more detailed data browsing work, thereby bringing great convenience to the doctor.
Another example is that when a doctor on duty measures the blood pressure or blood sugar of a patient, the historical trend change and the corresponding recent medication change can be seen on a screen, so that the condition of the patient can be conveniently understood. The doctor can change the doctor-patient workstation into a large-screen display terminal of the detector through a small and portable monitor for detection and one or two keys.
The main task of a specialist is diagnosis and treatment, and perhaps an electronic physiological detection tool can become a conventional tool in a doctor pocket in the future, for example, a portable electrocardiograph can be carried by a cardiologist when making a round, a portable glucometer can be carried by an endocrinology department when making a round, and a portable ultrasonic meter can be carried by a gastroenterology department when making a round, so that for the doctor, the rich data display capability requirement (such as the physiological examination and the viewing of historical data and medication records) and the portability requirement of equipment in the pocket have some contradictions, and if the portable equipment can use a display system of a bedside doctor-patient terminal, the contradictions are solved. Therefore, it is a trend of future development to combine the remote controller with the physiological sensor.
The proposal method configures different remote controllers for doctors and patients, combines the remote controller of the doctors with a conventional physiological detection tool in a pocket, and nurses can also combine with own electronic tools or use mobile phones to carry out personalized remote control, thereby realizing a low-cost and intelligent multisource remote control scheme for medical services.
Another example is in the field of home robots, where the elderly remote control contains conventional housekeeping instructions, such as falling, getting up, assisting in defecation, etc., which inform the robot via the wireless network to execute the corresponding instructions without the robot being in the vicinity of the person. Remote controls from other family members may then instruct the robot to perform activities such as singing, dancing, eating, etc. Therefore, one robot can accurately execute various functions according to needs, energy consumption is saved, and functions and man-machine interface design are simplified.
The invention is combined with the ID technology, and can further enhance the intelligent degree of multi-source remote control. Since the remote control may represent its user, such as a doctor. The patient or the business which is processed by the doctor or the nurse can be identified through technologies such as RFID, magnetic cards and the like, so that the remote control target is further restrained, and the intelligent level is improved.
Different remote controllers have unique IDs, different remote controller user interaction interfaces can be provided, different instructions are sent to the remote-controlled electronic equipment, the remote-controlled electronic equipment generates different reactions to the instructions from the different remote controllers, different user interfaces are called, and the like. Therefore, the proposal can support richer personalized user remote control application, serious enterprise business application and simpler and more intelligent personal public terminal application.
Generally, the present invention relates to a service system including an information terminal, an electronic device, and a multi-source remote controller that are formed to communicate with each other.
Preferably, the information terminal can be a PC used by a user, a mobile phone, a tablet computer, a server, or even an editing module in a human-computer interaction interface of an electronic device to generate and edit the configuration file. And the information terminal transmits the generated configuration file to the electronic equipment. The communication module of the electronic equipment receives the configuration file, verifies the validity of the configuration file according to the signature or the safety information in the configuration file and stores the configuration file into the information configuration list of the storage module, or verifies the validity of a sender of the configuration file according to a safety protocol.
The information terminal may include a second information editing module for editing information into a configuration file and a first transmission module for transmitting the configuration file to the electronic device.
Preferably, the multi-source remote controller comprises a third information editing module and a second transmission module, wherein the third information editing module is used for editing information into a configuration file, and the second transmission module is used for transmitting the configuration file to the electronic equipment.
The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent structures or flow transformations made by the present specification and drawings, or applied directly or indirectly to other related arts, are included in the scope of the present invention.