CN109883743B - Electrical appliance testing method and device based on mixed reality - Google Patents
Electrical appliance testing method and device based on mixed reality Download PDFInfo
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Abstract
The application provides an electric appliance testing method and device based on mixed reality, wherein the device comprises an acquisition unit, a display unit and a control unit, wherein the acquisition unit is used for acquiring three-dimensional scene information of a first room where an electric appliance is located and somatosensory information of a plurality of sites in the first room; the display unit is used for displaying a virtual first room for the tester according to the three-dimensional scene information; and the body sensing unit is used for enabling the testing personnel to obtain body sensing of the corresponding site in the first room according to the body sensing information and the current site of the testing personnel in the virtual first room. The virtual first room is displayed, so that the tester can obtain the same visual experience as that of the tester when the tester arrives at the first room, and the tester can obtain the same body feeling as that of the tester when the tester arrives at the first room, therefore, a user is not required to test the electrical appliances in the first room, the back-and-forth time is saved, the experimental resources are saved, the cost is reduced, the tester can test the electrical appliances in a plurality of different places conveniently, and the test efficiency is improved.
Description
Technical Field
The application relates to the field of testing, in particular to an electric appliance testing method and device based on mixed reality.
Background
Mixed Reality (MR) technology is a further development of virtual Reality technology, which builds an interactive feedback information loop between the real world, the virtual world and the user by presenting virtual scene information in the real scene to enhance the Reality of the user experience.
In prior art, after the electrical apparatus was made, need test the electrical apparatus, among the prior art, need tester to test the electrical apparatus to the laboratory, when the electrical apparatus was in a plurality of different laboratories, need tester to make a round trip to rush the wave between the laboratory of difference, the manpower and materials of test consumption are high, and it is very long to spend time, and unsuitable letting tester test at some extreme environment circumstances.
Therefore, the efficiency of electrical appliance testing is improved, and the cost of manpower and material resources is reduced, which is a problem to be solved urgently in the field.
Disclosure of Invention
The application provides a mixed reality electric appliance testing method and device, which are used for improving the electric appliance testing efficiency and reducing the cost of manpower and material resources.
In order to solve the above problems, as one aspect of the present application, there is provided a mixed reality-based appliance testing apparatus including:
the acquisition unit is used for acquiring three-dimensional scene information in a first room where the electric appliance is located and somatosensory information of a plurality of sites in the first room;
the display unit is used for displaying a virtual first room for the tester according to the three-dimensional scene information;
and the body sensing unit is used for enabling the testing personnel to obtain body sensing of the corresponding site in the first room according to the body sensing information and the current site of the testing personnel in the virtual first room.
Optionally, the somatosensory information includes: one or more of temperature, humidity, light intensity, wind sensation, sound, and tactile sensation;
and/or, the three-dimensional scene information comprises one or more of a spatial dimension of the first room, an item dimension of each item within the first room, and an item location;
and/or the display unit is further for displaying one or more of an indoor temperature, an indoor humidity, and an indoor sound within the first room.
Optionally, the method further includes:
the parameter setting unit is used for receiving the selected target operation parameters and adjusting the operation state of the electric appliance according to the target operation parameters;
and/or the parameter display unit is used for displaying the current operation parameters of the electric appliance.
Optionally, the motion sensing unit obtains the motion sensing of the corresponding point in the first room according to the motion sensing information and the current point of the tester in the virtual first room, and includes:
acquiring a current position of a user in a virtual first room;
determining a corresponding position in a first room corresponding to the current position;
acquiring target somatosensory information at corresponding positions;
and generating a stimulation signal according to the target somatosensory information and transmitting the stimulation signal to the user, so that the user obtains the somatosensory.
Optionally, the method further includes:
the tracking unit is used for detecting the motion information of the test personnel;
and the body sensing unit is also used for re-determining the current position of the testing personnel according to the motion information and adjusting the body sensing of the testing personnel according to the re-determined current position.
The application also provides an electrical appliance testing method based on mixed reality, which comprises the following steps:
acquiring three-dimensional scene information of a first room where an electric appliance is located and somatosensory information of a plurality of sites in the first room;
displaying a virtual first room for a tester according to the three-dimensional scene information;
and according to the somatosensory information and the current position of the testing person in the virtual first room, the testing person obtains the somatosensory at the corresponding position in the first room.
Optionally, the somatosensory information includes: one or more of temperature, humidity, light intensity, wind sensation, sound, and tactile sensation;
and/or the three-dimensional scene information comprises the space size of the first room, the object size of each object in the first room and the object position in the first room;
and/or, the method further comprises: one or more of an indoor temperature, an indoor humidity, and an indoor sound within the first room are displayed.
Optionally, the method further includes:
receiving the selected target operation parameters, and adjusting the operation state of the electric appliance according to the target operation parameters;
and/or displaying the current operating parameters of the appliance.
Optionally, the method for obtaining the body feeling of the tester at the corresponding point in the first room according to the body feeling information and the current point of the tester in the virtual first room includes:
acquiring a current position of a user in a virtual first room;
determining a corresponding position in a first room corresponding to the current position;
acquiring target somatosensory information at corresponding positions;
and generating a stimulation signal according to the target somatosensory information and transmitting the stimulation signal to the user, so that the user obtains the somatosensory.
Optionally, the method further includes:
detecting the motion information of the tester;
and re-determining the current position of the testing personnel according to the motion information, and adjusting the body feeling of the testing personnel according to the re-determined current position.
The application provides an electrical appliance testing method and device based on mixed reality, a tester obtains the same visual experience as that of the tester when the tester arrives at a first room by displaying a virtual first room, and the tester obtains the same body feeling as that of the tester when the tester arrives at the first room, so that the user is not required to test the electrical appliance in the first room, the back-and-forth time is saved, the experimental resources are saved, the cost is reduced, the tester can test the electrical appliances in a plurality of different places conveniently, and the testing efficiency is improved.
Drawings
Fig. 1 is a composition diagram of an electrical testing apparatus based on mixed reality in an embodiment of the present application;
fig. 2 is a flowchart of an electrical appliance testing method based on mixed reality in an embodiment of the present application.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, 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 application.
It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, apparatus, article, or air conditioner that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or air conditioner.
In prior art, after the electrical apparatus was made, need test the electrical apparatus among the prior art, need the tester to test to the laboratory, the number when the electrical apparatus is a plurality of, distribute when each laboratory, need the tester to test respectively to each laboratory, tester's test cost has been increased undoubtedly like this, need the tester to make a round trip to rush the ripples between each laboratory, time cost is higher, and in some extreme environment, be unsuitable to carry out the electrical apparatus by tester and test.
With the development of mixed reality technology, the mixed reality technology has gradually penetrated into various fields and brings many unexpected gains to people. The inventor of the present application finds that the time cost and the labor cost of the test can be reduced by adopting the mixed reality technology to carry out the electrical appliance test, therefore, the present application provides an electrical appliance testing device based on the mixed reality, as shown in fig. 1, the testing device provided by the present application includes: the device comprises an acquisition unit 10, a display unit 20 and a body sensing unit 30.
The acquisition unit 10 is used for acquiring three-dimensional scene information of a first room where the electric appliance is located and somatosensory information of a plurality of sites in the first room;
the display unit 20 is used for displaying a virtual first room for the tester according to the three-dimensional scene information;
and the body sensing unit 30 is configured to obtain body sensing of the tester at a corresponding point in the first room according to the body sensing information and the current point of the tester in the virtual first room.
Specifically, the first room may be a laboratory used in performing a test experiment on an electrical appliance, the electrical appliance is disposed in the first room and operates to test performance and user experience of the electrical appliance, the electrical appliance may be, for example, an air conditioner, a television, or the like, the three-dimensional scene information is used to describe an environment in the first room, and may include, for example, a room structure and a room size of the first room, and may further include information such as a home layout, a home category, and a home size in the first room, the three-dimensional environment information describes an environment in which the electrical appliance is located, the three-dimensional scene information is used to restore a surrounding environment of the electrical appliance, that is, after the three-dimensional environment information is obtained, a 3D model of the first room is established, an image in the virtual first room is displayed according to the three-dimensional environment information, for example, a user wears virtual reality glasses, the image of the virtual first room is displayed in virtual display eyes, and, optionally, the somatosensory information includes: one or more of temperature, humidity, light intensity, wind sensation, sound, and tactile sensation; detecting somatosensory information at multiple locations in the first room is equivalent to knowing the temperature, humidity, light intensity, wind sensation, sound and touch that should be experienced by the test person if he/she stands at each location. After the three-dimensional scene information is obtained, the tester does not need to go to the first room to perform an electrical appliance test, and may view the layout in the first room through the virtual first room displayed by the display unit 20 at any other position, the display unit 20 may be, for example, an augmented reality glasses, after the tester wears the augmented reality glasses, the virtual first room is displayed in the glasses, the virtual first room is completely consistent with the room structure of the first room and the layout of the items in the first room, so that the visual sense of the tester is the same as the visual sense when the tester is located in the first room, then the body sensing unit 30 obtains the current position of the tester in the virtual first room, and determines the corresponding position of the current position in the first room, for example: and in the virtual first room, the tester is positioned 5m right in front of the virtually displayed electric appliance, the corresponding point is 5m right in front of the electric appliance in the first room, and the somatosensory information of the corresponding point is determined, so that the tester generates the same somatosensory position as the corresponding point in the first room. Optionally, the somatosensory transmission is achieved by nerve conduction. The body sensing unit 30 may be a wearable device, and the wearable sensing device generates an electrical signal to form a nerve pulse to stimulate the skin and brain of the human body, so as to generate a body-sensing image sensing effect such as cold, heat, wind, etc. sensed by the human body.
The testing device provided by the application displays the virtual first room through the display unit 20, so that the testing personnel can obtain the same visual experience as that of arriving at the first room, and can obtain the same body feeling as that of arriving at the first room through the body feeling unit 30, therefore, the user can know the real feeling in the first room without going to the first room for electrical appliance test, thereby saving the time of back and forth movement, saving the experimental resources, reducing the cost, being convenient for the testing personnel to test the electrical appliances at a plurality of different places, improving the testing efficiency, and in addition, in the practical situation, the environment for testing the electric appliance is possibly severe, for example, the air conditioner performance at minus 15 ℃ or minus 50 ℃ is tested, and by adopting the device provided by the application, a tester is not required to test under the severe environment, so that the physical safety of the tester is protected.
Optionally, the three-dimensional scene information includes one or more of a spatial size of the first room, an item size and an item position of each item in the first room; a virtual first room which is exactly the same as the first room is virtualized by the three-dimensional scene information, so that it is preferable to acquire all the environmental information and the item information in the first room.
Optionally, the display unit is further configured to display one or more of an indoor temperature, an indoor humidity, and an indoor sound in the first room. Through showing humiture and noise, can make things convenient for the tester to accurately know current test environment to judge the performance of electrical apparatus under the test environment of difference.
Optionally, the testing apparatus provided in this application further includes: the parameter setting unit is used for receiving the selected target operation parameters and adjusting the operation state of the electric appliance according to the target operation parameters;
during testing, the performance of the electrical appliance under different operating parameters needs to be known, so that the operating parameters of the electrical appliance need to be adjusted, and different operating parameters are set through the parameter setting unit to comprehensively test the performance of the electrical appliance. Optionally, the testing apparatus provided by the present application further includes: and the parameter display unit is used for displaying the current operation parameters of the electric appliance.
Optionally, the motion sensing unit 30 makes the tester obtain the motion sensing at the corresponding point in the first room according to the motion sensing information and the current point of the tester in the virtual first room, and includes:
acquiring a current position of a user in a virtual first room;
determining a corresponding position in a first room corresponding to the current position;
acquiring target somatosensory information at corresponding positions;
and generating a stimulation signal according to the target somatosensory information and transmitting the stimulation signal to the user, so that the user obtains the somatosensory.
Specifically, a virtual first room is equivalently established, the positions of the user in the virtual space correspond to the positions in the first room one by one, after the current position is determined, the same corresponding position in the first room, namely the corresponding position, is found, and the body feeling which the tester should feel at the corresponding position can be known according to the target body feeling information of the corresponding position.
Optionally, the apparatus provided in this application further includes: the tracking unit is used for detecting the motion information of the test personnel; and the body sensing unit is also used for re-determining the current position of the testing personnel according to the motion information and adjusting the body sensing of the testing personnel according to the re-determined current position.
Specifically, after the test person may move in the test process, that is, move from one location to another location, and the tracking unit determines the motion information of the test person, the location where the user moves, that is, the re-determined current location, may be determined according to the known current location and the motion information, and then the motion sensing unit is adjusted correspondingly, so that the motion sensing obtained by the user is the motion sensing of the re-determined current location.
The application further provides an electrical appliance testing method based on mixed reality, as shown in fig. 2, including:
s11: acquiring three-dimensional scene information of a first room where an electric appliance is located and somatosensory information of a plurality of sites in the first room;
s12: displaying a virtual first room for a tester according to the three-dimensional scene information;
s13: and according to the somatosensory information and the current position of the testing person in the virtual first room, the testing person obtains the somatosensory at the corresponding position in the first room.
Specifically, the first room may be a laboratory used in a test experiment on an electrical appliance, the electrical appliance is arranged in the first room and runs to test performance and user experience of the electrical appliance, the electrical appliance may be, for example, an air conditioner, a television, or the like, the three-dimensional scene information is used to describe an environment in the first room, and may include, for example, a room structure and a room size of the first room, and may further include information such as a home layout, a home category, and a home size in the first room, the three-dimensional environment information describes an environment in which the electrical appliance is located, the three-dimensional scene information is used to restore a surrounding environment of the electrical appliance, positions of the plurality of sites may be preset, and positions of the preset sites need to be as dense as possible, so as to ensure that data volume is sufficiently. Optionally, the somatosensory information includes: one or more of temperature, humidity, light intensity, wind sensation, sound, and tactile sensation; detecting somatosensory information at multiple locations in the first room is equivalent to knowing the temperature, humidity, light intensity, wind sensation, sound and touch that should be experienced by the test person if he/she stands at each location. After the three-dimensional scene information is acquired, the tester does not need to go to the first room to perform an electrical appliance test, and may view the layout in the first room through the displayed virtual first room at any other position, the device displaying the virtual first room may be, for example, an augmented reality glasses, and after the tester wears the augmented reality glasses, the virtual first room is displayed in the glasses, and the virtual first room is completely consistent with the room structure of the first room and the layout of the items in the first room, so that the visual sense of the tester is the same as the visual sense when the tester is located in the first room, and then the current position of the tester in the virtual first room is acquired, and the corresponding position of the current position in the first room is determined, for example: and in the virtual first room, the tester is positioned 5m right in front of the virtually displayed electric appliance, the corresponding point is 5m right in front of the electric appliance in the first room, and the somatosensory information of the corresponding point is determined, so that the tester generates the same somatosensory position as the corresponding point in the first room. Optionally, the somatosensory transmission is achieved by nerve conduction. The body sensing unit can be wearable equipment, and the wearable sensing equipment generates an electric signal, forms nerve pulses to stimulate the skin and the brain of a human body, and generates the body sensing object feelings such as cold feeling, heat feeling and wind feeling of the human body. According to the testing method, the body feeling the same as that of the user who arrives at the first room can be obtained without the need that the user arrives at a laboratory, and therefore the user does not need to arrive at the first room to test the electric appliance, so that the time for the user to come back and forth is saved, the experimental resources are saved, and the cost is reduced.
Optionally, the three-dimensional scene information includes a spatial size of the first room, an item size of each item in the first room, and an item position in the first room;
optionally, the method provided by the present application further includes: one or more of an indoor temperature, an indoor humidity, and an indoor sound within the first room are displayed.
Optionally, the method provided by the present application further includes: receiving the selected target operation parameters, and adjusting the operation state of the electric appliance according to the target operation parameters; and/or displaying the current operating parameters of the appliance.
During testing, the performance of the electrical appliance under different operating parameters needs to be known, so that the operating parameters of the electrical appliance need to be adjusted, and the performance of the electrical appliance can be comprehensively tested by setting different operating parameters.
Optionally, the step of enabling the tester to obtain the somatosensory at the corresponding point in the first room according to the somatosensory information and the current point of the tester in the virtual first room includes:
acquiring a current position of a user in a virtual first room;
determining a corresponding position in a first room corresponding to the current position;
acquiring target somatosensory information at corresponding positions;
and generating a stimulation signal according to the target somatosensory information and transmitting the stimulation signal to the user, so that the user obtains the somatosensory.
Specifically, a virtual first room is equivalently established, the positions of the user in the virtual space correspond to the positions in the first room one by one, after the current position is determined, the same corresponding position in the first room, namely the corresponding position, is found, and the body feeling which the tester should feel at the corresponding position can be known according to the target body feeling information of the corresponding position.
Optionally, the test method provided by the present application further includes:
detecting the motion information of the tester;
and re-determining the current position of the testing personnel according to the motion information, and adjusting the body feeling of the testing personnel according to the re-determined current position.
Specifically, after the tester may move in the testing process, that is, move from one location to another location, and determine the motion information of the tester, the location where the user moves, that is, the re-determined current location, may be determined according to the known current location and the motion information, and then the motion obtained by the user is the motion of the re-determined current location through corresponding adjustment.
The following electric appliance is taken as an air conditioner as an example, a camera is installed in a laboratory for testing the air conditioner to capture three-dimensional scene information of the laboratory, real environment and body sensing recognition is carried out through sensing of a sensor in the laboratory on each site of a real scene, a tester wears mixed reality equipment at any place other than the laboratory, and the mixed reality equipment simulates and displays virtual environment in the laboratory and comprises the structure and layout of the laboratory. And then real three-dimensional position experience and body feeling experience are given to a tester by combining a virtual laboratory according to body feeling information detected by sensors such as temperature and humidity in the laboratory. And show the various parameters of air conditioner operation on display screen, at this test procedure, the tester makes eyes see the test environment in the laboratory through wearing mixed reality display device, experiences the sensation of wind that the air conditioner blew out through the body, cold wind under the refrigeration mode and the hot-blast under the mode of heating. Relevant data such as indoor temperature, humidity, noise and the like are observed in real time through the display, and the tester is provided with a real experience feeling for testing each indoor position.
The testing method provided by the application can basically cover various experimental tests in the air conditioner design stage. Including various tests of performance, noise, comfort, etc. For example, in the test of comfort test, test temperature rise temperature drop, experiments such as air supply distance, the tester really experiences indoor wind sensation outside the laboratory, the change of indoor temperature to experience the comfortable degree that the in-process still combines indoor parameter display more audio-visual understanding air conditioner. The device not only protects the human body from harming the human body which is not suitable for temperature change, saves experimental resources, but also tests more conveniently and visually.
The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.
Claims (18)
1. The utility model provides an electrical apparatus testing arrangement based on mixed reality which characterized in that includes:
the system comprises a collecting unit, a processing unit and a processing unit, wherein the collecting unit is used for collecting three-dimensional scene information in a first room where an electric appliance is located and somatosensory information of a plurality of sites in the first room;
the display unit is used for displaying a virtual first room for the tester according to the three-dimensional scene information;
the body sensing unit is used for enabling the testing personnel to obtain body sensing of the corresponding position of the first room according to the body sensing information and the current position of the testing personnel in the virtual first room;
the body sensing unit is wearable equipment, the wearable equipment generates an electric signal to form nerve pulse to stimulate the skin and the brain of a human body and generate the cold feeling, the hot feeling and the wind feeling of the human body;
further comprising:
and the parameter setting unit is used for receiving the selected target operation parameters and adjusting the operation state of the electric appliance according to the target operation parameters.
2. The mixed reality-based appliance testing device according to claim 1,
the somatosensory information comprises: one or more of temperature, humidity, light intensity, wind sensation, sound, and tactile sensation;
and/or the three-dimensional scene information comprises one or more of the spatial size of the first room, the item size and the item position of each item in the first room;
and/or the display unit is further used for displaying one or more of the indoor temperature, the indoor humidity and the indoor sound in the first room.
3. The mixed reality-based appliance testing device according to claim 1 or 2, further comprising:
and the parameter display unit is used for displaying the current operation parameters of the electric appliance.
4. The mixed reality-based appliance testing device according to any one of claims 1-2, wherein a body sensing unit enables the testing person to obtain body sensing at a corresponding point in the first room according to the body sensing information and a current position of the testing person in the virtual first room, and the method comprises:
acquiring a current position of a user in the virtual first room;
determining a corresponding position in the first room corresponding to the current position;
acquiring target somatosensory information at the corresponding position;
and generating a stimulation signal according to the target somatosensory information and transmitting the stimulation signal to a user, so that the user obtains the somatosensory.
5. The mixed reality-based electric appliance testing device according to claim 3, wherein a body sensing unit enables the testing person to obtain body sensing at a corresponding point in the first room according to the body sensing information and a current position of the testing person in the virtual first room, and the method comprises:
acquiring a current position of a user in the virtual first room;
determining a corresponding position in the first room corresponding to the current position;
acquiring target somatosensory information at the corresponding position;
and generating a stimulation signal according to the target somatosensory information and transmitting the stimulation signal to a user, so that the user obtains the somatosensory.
6. The mixed reality-based appliance testing device according to any one of claims 1-2, further comprising:
the tracking unit is used for detecting the motion information of the test personnel;
and the body sensing unit is also used for re-determining the current position of the testing personnel according to the motion information and adjusting the body sensing of the testing personnel according to the re-determined current position.
7. The mixed reality-based appliance testing device according to claim 3, further comprising:
the tracking unit is used for detecting the motion information of the test personnel;
and the body sensing unit is also used for re-determining the current position of the testing personnel according to the motion information and adjusting the body sensing of the testing personnel according to the re-determined current position.
8. The mixed reality-based appliance testing device according to claim 4, further comprising:
the tracking unit is used for detecting the motion information of the test personnel;
and the body sensing unit is also used for re-determining the current position of the testing personnel according to the motion information and adjusting the body sensing of the testing personnel according to the re-determined current position.
9. The mixed reality-based appliance testing device according to claim 5, further comprising:
the tracking unit is used for detecting the motion information of the test personnel;
and the body sensing unit is also used for re-determining the current position of the testing personnel according to the motion information and adjusting the body sensing of the testing personnel according to the re-determined current position.
10. An electric appliance testing method based on mixed reality is characterized by comprising the following steps:
acquiring three-dimensional scene information of a first room where an electric appliance is located and somatosensory information of a plurality of sites in the first room;
displaying a virtual first room for a tester according to the three-dimensional scene information;
the wearable device enables the testing person to obtain the body feeling of the corresponding point in the first room according to the body feeling information and the current point of the testing person in the virtual first room;
the wearable equipment generates an electric signal to form a nerve pulse to stimulate the skin and the brain of a human body and generate the cold feeling, the hot feeling and the wind feeling of the human body;
further comprising:
and receiving the selected target operation parameters, and adjusting the operation state of the electric appliance according to the target operation parameters.
11. The mixed reality-based appliance testing method according to claim 10,
the somatosensory information comprises: one or more of temperature, humidity, light intensity, wind sensation, sound, and tactile sensation;
and/or the three-dimensional scene information comprises the space size of the first room, the article size of each article in the first room and the position of the article in the first room;
and/or, the method further comprises: displaying one or more of an indoor temperature, an indoor humidity, and an indoor sound within the first room.
12. The mixed reality-based appliance testing method according to claim 10 or 11, further comprising:
and displaying the current operation parameters of the electric appliance.
13. The mixed reality-based appliance testing method according to any one of claims 10 to 11, wherein the step of enabling the test person to obtain the body feeling of the corresponding point in the first room according to the body feeling information and the current position of the test person in the virtual first room comprises the steps of:
acquiring a current position of a user in the virtual first room;
determining a corresponding position in the first room corresponding to the current position;
acquiring target somatosensory information at the corresponding position;
and generating a stimulation signal according to the target somatosensory information and transmitting the stimulation signal to a user, so that the user obtains the somatosensory.
14. The mixed reality-based appliance testing method of claim 12, wherein the step of enabling the testing person to obtain the body feeling of the corresponding point in the first room according to the body feeling information and the current position of the testing person in the virtual first room comprises:
acquiring a current position of a user in the virtual first room;
determining a corresponding position in the first room corresponding to the current position;
acquiring target somatosensory information at the corresponding position;
and generating a stimulation signal according to the target somatosensory information and transmitting the stimulation signal to a user, so that the user obtains the somatosensory.
15. The mixed reality-based appliance testing method according to any one of claims 10 to 11, further comprising:
detecting the motion information of the tester;
and re-determining the current position of the testing person according to the motion information, and adjusting the body feeling of the testing person according to the re-determined current position.
16. The mixed reality-based appliance testing method according to claim 12, further comprising:
detecting the motion information of the tester;
and re-determining the current position of the testing person according to the motion information, and adjusting the body feeling of the testing person according to the re-determined current position.
17. The mixed reality-based appliance testing method according to claim 13, further comprising:
detecting the motion information of the tester;
and re-determining the current position of the testing person according to the motion information, and adjusting the body feeling of the testing person according to the re-determined current position.
18. The mixed reality-based appliance testing method according to claim 14, further comprising:
detecting the motion information of the tester;
and re-determining the current position of the testing person according to the motion information, and adjusting the body feeling of the testing person according to the re-determined current position.
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| CN205581784U (en) * | 2016-04-14 | 2016-09-14 | 江苏华博创意产业有限公司 | Can mix real platform alternately based on reality scene |
| CN106898049A (en) * | 2017-01-18 | 2017-06-27 | 北京商询科技有限公司 | A kind of spatial match method and system for mixed reality equipment |
| CN107748617A (en) * | 2017-10-24 | 2018-03-02 | 广州云友网络科技有限公司 | A kind of virtual scene method synchronous with body-sensing, sense of touch |
| CN107908000A (en) * | 2017-11-27 | 2018-04-13 | 西安交通大学 | A kind of mixed reality system with ultrasonic virtual tactile |
| CN109147056A (en) * | 2018-08-10 | 2019-01-04 | 珠海格力电器股份有限公司 | A kind of electric control method, device, storage medium and mobile terminal |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN205581784U (en) * | 2016-04-14 | 2016-09-14 | 江苏华博创意产业有限公司 | Can mix real platform alternately based on reality scene |
| CN106898049A (en) * | 2017-01-18 | 2017-06-27 | 北京商询科技有限公司 | A kind of spatial match method and system for mixed reality equipment |
| CN107748617A (en) * | 2017-10-24 | 2018-03-02 | 广州云友网络科技有限公司 | A kind of virtual scene method synchronous with body-sensing, sense of touch |
| CN107908000A (en) * | 2017-11-27 | 2018-04-13 | 西安交通大学 | A kind of mixed reality system with ultrasonic virtual tactile |
| CN109147056A (en) * | 2018-08-10 | 2019-01-04 | 珠海格力电器股份有限公司 | A kind of electric control method, device, storage medium and mobile terminal |
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