CN113848764B - Inter-device setting parameter transplanting method, electronic device and storage medium - Google Patents
Inter-device setting parameter transplanting method, electronic device and storage medium Download PDFInfo
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- CN113848764B CN113848764B CN202111141440.5A CN202111141440A CN113848764B CN 113848764 B CN113848764 B CN 113848764B CN 202111141440 A CN202111141440 A CN 202111141440A CN 113848764 B CN113848764 B CN 113848764B
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- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
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Abstract
The invention discloses a method for transplanting setting parameters between devices, electronic devices and a storage medium. The method comprises the following steps: acquiring a first setting parameter of a user in first equipment, converting the first setting parameter into a first standard parameter according to a first parameter conversion rule of the type of the first equipment, and storing the first standard parameter; responding to a transplanting instruction for transplanting the first setting parameters on the second equipment, acquiring the first standard parameters, and if the type of the second equipment is different from that of the first equipment, converting the first standard parameters into the second setting parameters according to a second parameter conversion rule of the type of the second equipment; setting a second setting parameter on the second device. According to the invention, the parameter conversion rules of all types of equipment are set, the set parameters memorized by all the equipment are converted into standard parameters for storage, and when the standard parameters are required to be imported, the standard parameters are converted into actual parameters according to the conversion rules of different types for importing, so that the same effect is ensured to be realized on different equipment.
Description
Technical Field
The invention relates to the technical field of automobiles, in particular to a method for transplanting setting parameters between devices, electronic equipment and a storage medium.
Background
Existing vehicles allow a user to set user parameters, i.e., setup parameters, for various components on the vehicle. The setting parameters include, but are not limited to, an atmosphere lamp light gear, an air conditioner gear, a seat adjustment gear, and the like. The setting parameters are typically saved after user settings. The next time the user uses the car, the user can directly call.
However, the user may use multiple vehicles, such as using a new vehicle, or using a rental vehicle. The prior art allows a user to migrate set-up parameters at a first vehicle to a second vehicle.
However, the existing migration method of setting parameters is only suitable for migration between vehicles of the same type. The hardware parameters of different types of vehicles are different, the hardware parameters of different vehicles are different, the same software parameters can show different effects on different vehicles, and the expected effects cannot be obtained by direct import.
Taking the example of an atmosphere light gear, there may be 8 gears in the first vehicle. However, there may be 16 gears in the second vehicle of a different model than that. The difference in the number of gear steps results in the inability to migrate the setting parameters for the mood light gear steps in the first vehicle to the second vehicle.
If the conversion is to be carried out in different types, the prior art can only calibrate one vehicle, so that the workload is huge and cannot be implemented, and if the input data validity is ensured by a mode of operating large data by a user, but the data validity of the user operation is difficult to ensure, the data is complex and the effect is poor, so that the learning cost of the user is too high or the matching performance is poor.
Therefore, the prior art cannot carry out the transplantation of the setting parameters among different types of vehicles, and the user cannot extend the prior setting by using a new vehicle or a leasing vehicle, and needs to reset and memorize manually.
Disclosure of Invention
Based on this, it is necessary to provide a method for transplanting setting parameters between devices, an electronic device, and a storage medium, which solve the technical problem that the prior art cannot transplant setting parameters between different types.
The invention provides a method for transplanting setting parameters between devices, which comprises the following steps:
acquiring a first setting parameter of a user in first equipment, converting the first setting parameter into a first standard parameter according to a first parameter conversion rule of the type of the first equipment, and storing the first standard parameter;
responding to a transplanting instruction for transplanting the first setting parameters on the second equipment, acquiring the first standard parameters, and converting the first standard parameters into second setting parameters meeting the second equipment according to a second parameter conversion rule of the type of the second equipment;
The second setting parameters are set on a second device.
Further, the converting the first standard parameter into a second setting parameter meeting the second device according to a second parameter conversion rule of the type of the second device specifically includes:
based on a preset matching rule, selecting one second standard parameter from a plurality of second standard parameters as a second standard parameter to be converted according to the first standard parameter, wherein each second standard parameter corresponds to a setting parameter meeting second equipment;
and converting the second standard parameters to be converted into second setting parameters according to a second parameter conversion rule of the type of the second equipment.
Still further, the matching rule is: and selecting a second standard parameter closest to the first standard parameter as a second standard parameter to be converted.
Further, the setting the second setting parameter on the second device specifically includes:
acquiring other setting parameters of other equipment corresponding to the first standard parameters, and taking the other setting parameters with the largest setting times as correction setting parameters, wherein the types of the other equipment are consistent with the types of the second equipment;
and if the proportion of the setting times of the correction setting parameters to the total transplanting times is smaller than a preset proportion threshold value, setting the second setting parameters on second equipment, otherwise, setting the correction setting parameters on the second equipment, wherein the total transplanting times are the total times of converting the first standard parameters into the second setting parameters on other equipment with the same type as the second equipment.
Further, the obtaining other setting parameters of the other devices corresponding to the first standard parameters specifically includes:
and acquiring the setting parameters which are manually modified by other equipment in preset time after the second setting parameters are set, and taking the setting parameters as other setting parameters corresponding to the first standard parameters.
Further, the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first light gear set by a user on the first device, the first standard parameter is a first standard color parameter corresponding to the first light gear, the second standard parameter is a second standard color parameter selected according to the first standard color parameter based on a preset matching rule, and the second setting parameter is a second light gear corresponding to the second standard color parameter on the second device.
Further, the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first main driving up-down gear set by a user on the first vehicle, the first standard parameter is a first vertical distance between a main driving seat center corresponding to the first main driving up-down gear and a cabin floor, the second standard parameter is a second vertical distance selected according to the first vertical distance based on a preset matching rule, and the second setting parameter is a second main driving up-down gear corresponding to a second vertical distance between the main driving seat center and the cabin floor on the second vehicle; or alternatively
The first setting parameter is a first main driving front-rear gear set by a user on a first vehicle, the first standard parameter is a first horizontal distance between a main driving seat center corresponding to the first main driving front-rear gear and a pedal, the second standard parameter is a second horizontal distance selected according to the first horizontal distance based on a preset matching rule, and the second setting parameter is a second main driving front-rear gear corresponding to a second horizontal distance between the main driving seat center and the pedal on a second vehicle.
Further, the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first air-conditioning temperature gear set by a user on the first vehicle, the first standard parameter is a first temperature corresponding to the first air-conditioning temperature gear, the second standard parameter is a second temperature selected according to the first temperature based on a preset matching rule, and the second setting parameter is a second air-conditioning temperature gear corresponding to the second temperature on the second vehicle; or alternatively
The first setting parameter is a first air-conditioning wind direction gear set by a user on a first vehicle, the first standard parameter is a first function corresponding to the first air-conditioning wind direction gear, the second standard parameter is a second function selected according to the first function based on a preset matching rule, and the second setting parameter is a second air-conditioning wind direction gear corresponding to the second function on a second vehicle; or alternatively
The first setting parameter is a first air-conditioning air volume gear set by a user on a first vehicle, the first standard parameter is a first standard air volume corresponding to the first air-conditioning air volume gear, the second standard parameter is a second standard air volume selected according to the first standard air volume based on a preset matching rule, and the second setting parameter is a second air-conditioning air volume gear corresponding to the second standard air volume on a second vehicle.
Further, the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first steering wheel up-down gear set by a user on the first vehicle, the first standard parameter is a first vertical distance between a steering wheel center corresponding to the first steering wheel up-down gear and a current main driving seat position, the second standard parameter is a second vertical distance selected according to the first vertical distance based on a preset matching rule, and the second setting parameter is a second steering wheel up-down gear corresponding to a second vertical distance between the steering wheel center and the current main driving seat position on the second vehicle; or alternatively
The first setting parameter is a first steering wheel front-rear gear set by a user on a first vehicle, the first standard parameter is a first horizontal distance between a steering wheel center corresponding to the first steering wheel front-rear gear and a current main driving seat position, the second standard parameter is a second horizontal distance selected according to the first horizontal distance based on a preset matching rule, and the second setting parameter is a second steering wheel front-rear gear corresponding to a second horizontal distance between the steering wheel center and the current main driving seat position on a second vehicle.
Further, the first setting parameter is a first vertical distance between a center of a co-driver seat corresponding to the first vertical distance and a cabin floor, which is set by a user on a first vehicle, the first standard parameter is a first vertical distance between the center of the co-driver seat corresponding to the first vertical distance and the cabin floor, the second standard parameter is a second vertical distance selected according to the first vertical distance based on a preset matching rule, and the second setting parameter is a second vertical distance between the center of the co-driver seat and the cabin floor, which is set by a user on a second vehicle; or alternatively
The first setting parameter is a first front and rear co-driver gear set by a user on a first vehicle, the first standard parameter is a first horizontal distance between the center of the co-driver seat corresponding to the first front and rear co-driver gear and the rear row seat, the second standard parameter is a second horizontal distance selected according to the first horizontal distance based on a preset matching rule, and the second setting parameter is a second front and rear secondary driving gear corresponding to the second horizontal distance of the rear seat opposite to the center of the secondary driving seat on the second vehicle.
The present invention provides an electronic device including:
At least one processor; the method comprises the steps of,
a memory communicatively coupled to at least one of the processors; wherein, the liquid crystal display device comprises a liquid crystal display device,
the memory stores instructions executable by at least one of the processors to enable the at least one processor to perform the inter-device setup parameter migration method as previously described.
The present invention provides a storage medium storing computer instructions that, when executed by a computer, perform all the steps of the inter-device setup parameter migration method as described above.
According to the invention, the setting parameters are converted into the standard parameters for storage, the parameter conversion rules of the devices of all types are set, the setting parameters memorized by the devices are converted into the standard parameters for storage, and when the standard parameters are required to be imported, the standard parameters are converted into the actual parameters according to the conversion rules of different types for importing, so that the same effect is ensured to be realized on different devices.
Drawings
FIG. 1 is a workflow diagram of a method for transplanting setup parameters between devices according to the present invention;
FIG. 2 is a flowchart illustrating a method for transplanting parameters for setting between devices according to an embodiment of the present invention;
FIG. 3 is a flowchart showing a method for transplanting setting parameters between devices according to a preferred embodiment of the present invention;
FIG. 4 is a schematic diagram of an example of an ambient light gear between a first vehicle and a second vehicle according to the present invention;
FIG. 5 is a schematic diagram showing the correspondence between a first vehicle and a second vehicle in a front-rear drive gear according to an embodiment of the present invention;
FIG. 6 is a schematic diagram of a main driving upshift and downshift between a first vehicle and a second vehicle according to an embodiment of the present invention;
fig. 7 is a schematic diagram of a hardware structure of an electronic device according to the present invention.
Detailed Description
The invention will now be described in further detail with reference to the drawings and to specific examples.
Example 1
Fig. 1 is a workflow diagram of a method for transplanting setting parameters between devices according to the present invention, including:
step S101, obtaining a first setting parameter of a user in first equipment, converting the first setting parameter into a first standard parameter according to a first parameter conversion rule of the type of the first equipment, and storing the first standard parameter;
step S102, responding to a transplanting instruction for transplanting a first setting parameter on a second device, acquiring the first standard parameter, and converting the first standard parameter into a second setting parameter meeting the second device according to a second parameter conversion rule of the type of the second device;
step S103, setting the second setting parameters on the second device.
Specifically, when the user memory setting is manually updated, step S101 is triggered to hold the updated data. The method can be kept in the device, or can be uploaded to a server (such as a cloud server) and bound with a user account. The device may be a vehicle, or some other electronic device such as a cell phone, etc.
The setting parameters may be of various types. For a vehicle, the setting parameters include, but are not limited to, mood light gear, air conditioning gear, seat adjustment gear, steering wheel adjustment gear, and the like. For electronic devices, the setting parameters include, but are not limited to: screen brightness, incoming call reminding, play volume, etc., unlocking mode, etc. In this embodiment, the setting parameters of the user on the first device are denoted as first setting parameters, and the setting parameters converted for setting on the second device are denoted as second setting parameters. The standard parameter is a component parameter of the equipment component to be finally controlled by the setting parameter, for example, for an air conditioner, the standard parameter is an air conditioner temperature. In different vehicles, for the same standard parameters, the corresponding setting parameters are not the same. For example, in a vehicle, the air conditioner may be in first gear at 16 degrees celsius, which is stored with 01, while in B vehicle, it may be in second gear at 16 degrees celsius, which is stored with 10, while in C vehicle, it may be in fourth gear at 16 degrees celsius, which is stored with 10000. Similarly, for different types of electronic devices, for example, for different types of mobile phones, the actual brightness corresponding to the number of screen brightness levels is also different. For example, in an a phone, L luminous flux corresponds to the first screen brightness, and in a B phone, L luminous flux corresponds to the second screen brightness. Therefore, the present embodiment converts the setting parameters into standard parameters and saves them, thereby ensuring the consistency of the saved data.
Specifically, the first setting parameters may be converted into first standard parameters according to a first parameter conversion rule of the type of the first device, and the previous data may be stored and covered at the server side. The first device, for example, the first vehicle, converts the first setting parameters into first standard parameters according to the first parameter conversion rule, and then uploads the first standard parameters to the server for storage, and the first standard parameters are acquired from the server by the second device. The first setting parameters can also be uploaded to the server side by the first equipment, the server side converts the first setting parameters into first standard parameters according to the first parameter conversion rule and stores the first standard parameters, and the first standard parameters are acquired from the server side by the second equipment. The first setting parameters can also be converted into first standard parameters by the first device according to the first parameter conversion rule, then stored in the first device and acquired from the first device by the second device. The first parameter conversion rule defines a relationship between the first setting parameter and the first standard parameter. The specific first parameter conversion rule is set according to different types.
Then, when a transplantation instruction for transplanting the first setting parameters to the second device is received, step S102 is triggered to obtain the first standard parameters, and the first standard parameters are converted into the second setting parameters meeting the second device according to the second parameter conversion rule. Preferably, the types of the first device and the second device may be detected, and if the types of the first device and the second device are different, the first standard parameter is converted into a second setting parameter satisfying the second device according to the second parameter conversion rule. If the first device and the second device are of the same type, the first setting parameter may be directly taken as the second setting parameter of the second device. The specific second parameter conversion rule is set according to different types. Specifically, the second device may obtain the first standard parameter from the server, and then convert the first standard parameter into the second setting parameter at the device side, or the server may obtain the first standard parameter from the database, convert the first standard parameter into the second setting parameter, and then send the second setting parameter to the second device.
Finally, step S103 is performed to set the second setting parameters on the second device. In particular, the second setting parameter may be set on the second device, and the memory setting of the user may be saved on the second device as the second setting parameter.
Taking an atmosphere lamp gear as an example, the first setting parameter of the first device is the atmosphere lamp light 4 gear, and the first setting parameter is converted into a corresponding HSL parameter (85,255,128) as a first standard parameter through a first parameter conversion rule. Then, when step S102 is performed, hue, saturation, brightness (Hue Saturation Lightness, HSL) parameters (85,255,128) are acquired as first standard parameters, which are converted into an atmosphere lamp light 8 on the second device as second setting parameters based on the second parameter conversion rule. And then, saving the atmosphere lamp light gear of the user as the atmosphere lamp light 8 gear in the second equipment. An atmosphere light gear consistent with the effect of the first device may be used when the user uses the vehicle at the second device. Thereby realizing the atmosphere lamp light gear memorizing effect of the first equipment at the second equipment.
The parameter conversion rule of the embodiment is provided by a developer, does not need user participation, can ensure that learning cost is not needed, and can also ensure the accuracy of data. Meanwhile, because the parameters are converted into standard parameters and then are matched based on internal matching rules, the workload of developers is very small, the device-by-device comparison matching is not needed, and only the device parameter conversion rules responsible for the developers are needed to be modified. The parameter transformation rule in this embodiment is obtained by offline measurement records, and each type needs to be established separately.
According to the invention, the setting parameters are converted into the standard parameters for storage, the parameter conversion rules of the devices of all types are set, the setting parameters memorized by the devices are converted into the standard parameters for storage, and when the standard parameters are required to be imported, the standard parameters are converted into the actual parameters according to the conversion rules of different types for importing, so that the same effect is ensured to be realized on different devices.
Example two
Fig. 2 is a flowchart of a method for transplanting setting parameters between devices according to an embodiment of the present invention, including:
step S201, obtaining a first setting parameter of a user in first equipment, converting the first setting parameter into a first standard parameter according to a first parameter conversion rule of the type of the first equipment, and storing the first standard parameter;
step S202, acquiring the first standard parameters in response to a transplantation instruction for transplanting the first setting parameters on the second equipment;
step S203, based on a preset matching rule, selecting a second standard parameter from a plurality of second standard parameters as a second standard parameter to be converted according to the first standard parameter, where each second standard parameter corresponds to a setting parameter that meets a second device, and the matching rule is as follows: selecting a second standard parameter closest to the first standard parameter as a second standard parameter to be converted;
Step S204, converting the second standard parameters to be converted into second setting parameters according to a second parameter conversion rule of the type of the second equipment;
step S205, setting the second setting parameters on the second device.
In one embodiment, the setting the second setting parameter on the second device specifically includes:
acquiring other setting parameters of other equipment corresponding to the first standard parameters, and taking the other setting parameters with the largest setting times as correction setting parameters, wherein the types of the other equipment are consistent with the types of the second equipment;
and if the proportion of the setting times of the correction setting parameters to the total transplanting times is smaller than a preset proportion threshold value, setting the second setting parameters on second equipment, otherwise, setting the correction setting parameters on the second equipment, wherein the total transplanting times are the total times of converting the first standard parameters into the second setting parameters on other equipment with the same type as the second equipment.
In one embodiment, the obtaining other setting parameters of the other devices corresponding to the first standard parameter specifically includes:
and acquiring the setting parameters which are manually modified by other equipment in preset time after the second setting parameters are set, and taking the setting parameters as other setting parameters corresponding to the first standard parameters.
Specifically, when the user memory setting is manually updated, step S201 is triggered to store the updated data. In one embodiment, the data is uploaded to a server (e.g., cloud server) and bound to the user account. And when a transplanting instruction for transplanting the first setting parameters to the second equipment is received, triggering the step S202 to acquire the first standard parameters. When the type of the second device is different from that of the first device, step S203 is triggered, and based on a preset matching rule, one second standard parameter is selected as the second standard parameter to be converted from the plurality of second standard parameters according to the first standard parameter. The matching rule is a nearby rule, namely, a second standard parameter closest to the first standard parameter is selected as the second standard parameter to be converted. Because the types are different, it is likely that the standard parameters are different between the two types. Taking the atmosphere lamp light as an example, the HSL parameter corresponding to the first grade of the atmosphere lamp light in the first device is (0,255,128), and the first standard parameter is the HSL parameter (0,255,128). In the second device, the HSL parameter corresponding to the gear of the atmosphere lamp light is not present (0,255,128). Therefore, the second standard parameter corresponding to the setting parameter of the second device is not consistent with the first standard parameter. Therefore, the second standard parameters included in the second device corresponding type may be stored in the database or the second device in advance, and after the first standard parameters are acquired, the second standard parameter closest to the first standard parameter is selected from the plurality of second standard parameters as the second standard parameter to be converted through a preset matching rule.
Then, step S204 is executed to convert the second standard parameters to be converted into second setting parameters according to a second parameter conversion rule of the type of the second device.
Finally, step S205 is performed to set the second setting parameters on the second device.
The user's memory setting may be saved directly on the second device as said second setting parameter.
However, other setting parameters of other devices corresponding to the first standard parameter may be acquired to perform the correction. Specifically, after the second setting parameters are set, setting parameters manually modified by other devices in a preset time are obtained and used as other setting parameters corresponding to the first standard parameters.
As a mixed scheme, the second setting parameters obtained by adopting the nearby matching principle can account for a larger proportion of actual decisions, and other setting parameters obtained based on other devices or other matching rules are only used as corrections, so that the proportion is smaller, the effect is ensured to be at least 80%, and meanwhile, better effects are expected to be achieved.
Specifically, after the second setting parameters are set by other devices, setting parameters which are manually modified in preset time are obtained and used as other setting parameters corresponding to the first standard parameters;
Taking other setting parameters with the largest setting times as correction setting parameters, wherein the types of other devices are consistent with the types of the second devices;
and if the proportion of the setting times of the correction setting parameters to the total transplanting times is smaller than a preset proportion threshold value, setting the second setting parameters on second equipment, otherwise, setting the correction setting parameters on the second equipment, wherein the total transplanting times are the total times of converting the first standard parameters into the second setting parameters on other equipment with the same type as the second equipment.
For example, the first device and the second device are switched with respect to the gear of the vehicle temperature, and based on the temperature first gear of the first setting parameter which is closely matched on the first device, the second setting parameter which is correspondingly matched is the temperature third gear through a preset matching rule. However, after the server obtains that most users (for example, more than half) are matched to the third temperature gear on other devices of the same type as the second device, the second temperature gear is manually adjusted, and other setting parameters are the second temperature gear. And if the proportion of the number of users set as the second temperature gear does not exceed the preset proportion threshold value, setting the second setting parameter, namely the third temperature gear, on the second equipment.
The embodiment converts the first standard parameter into the second standard parameter closest to the first standard parameter based on the nearby principle, so that the situation that the different types cannot be converted is avoided. Meanwhile, correction items are added, so that the converted parameters meet the requirements of more people.
Referring to fig. 3, a flowchart of a method for transplanting parameters for setting between vehicles according to a preferred embodiment of the present invention is shown, comprising:
step S301, after the user remembers to manually update the settings, uploading updated data serving as first setting parameters to the cloud end and binding the first setting parameters with an account;
step S302, converting the first setting parameters into first standard parameters according to the parameter conversion rules of the vehicle type, storing the first standard parameters and covering the previous data;
step S303, receiving an instruction of updating setting parameters to a certain vehicle;
step S304, a first standard parameter of the account is obtained at the cloud;
step S305, according to the parameter conversion rule of the vehicle model, the first standard parameter is matched with the second parameter corresponding to the vehicle model, and converted into the corresponding second setting parameter, and then OTA upgrading is carried out by adopting the second setting parameter.
According to the embodiment, the setting parameters are stored in the cloud and are bound with the account, corresponding settings can be imported in an OTA mode when a new car or a leased car is used, and history settings can be used conveniently. The parameter conversion rule of each vehicle type is set in the cloud, the set parameters memorized by each vehicle are converted into standard parameters for storage, and when the standard parameters are required to be imported, the standard parameters are converted into actual parameters according to the conversion rules of different vehicle types for importing, so that the same effect is guaranteed to be achieved on different vehicles.
In one embodiment, the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first light gear set by a user on the first vehicle, the first standard parameter is a first standard color parameter corresponding to the first light gear, the second standard parameter is a second standard color parameter selected according to the first standard color parameter based on a preset matching rule, and the second setting parameter is a second light gear corresponding to the second standard color parameter on the second vehicle.
Specifically, fig. 4 is a schematic diagram showing a correspondence between a first vehicle and a second vehicle according to an embodiment of the present invention. For example, if the first setting parameter of the first vehicle is the first light gear 4 th gear, the first standard parameter is the HSL parameter (85,255,128). And selecting the second standard parameter as an HSL parameter (98,243,152) based on a preset matching rule, and obtaining the corresponding second setting parameter as the 8 th gear of the second lamplight gear. The preset matching rule may be a second standard color parameter having a smallest color difference with the first standard color parameter.
The embodiment realizes the transplantation of the lamplight gear setting parameters among different vehicles.
In one embodiment, the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first main driving up-down gear set by a user on the first vehicle, the first standard parameter is a first vertical distance between a center of a main driving seat corresponding to the first main driving up-down gear and a cabin floor, the second standard parameter is a second vertical distance selected according to the first vertical distance based on a preset matching rule, and the second setting parameter is a second main driving up-down gear corresponding to a second vertical distance between the center of the main driving seat and the cabin floor on the second vehicle; or alternatively
The first setting parameter is a first main driving front-rear gear set by a user on a first vehicle, the first standard parameter is a first horizontal distance between a main driving seat center corresponding to the first main driving front-rear gear and a pedal, the second standard parameter is a second horizontal distance selected according to the first horizontal distance based on a preset matching rule, and the second setting parameter is a second main driving front-rear gear corresponding to a second horizontal distance between the main driving seat center and the pedal on a second vehicle.
Specifically, the setting parameters memorized by the main driving seat are up-down and front-back gear signals, and the standard parameters are the vertical distance between the center of the main driving seat and the floor of the cabin and the horizontal distance between the center of the main driving seat and the pedal.
Fig. 5 is a schematic diagram showing the correspondence between the first vehicle and the second vehicle in the front-rear driving gear according to an embodiment of the present invention, and fig. 6 is a schematic diagram showing the correspondence between the first vehicle and the second vehicle in the front-rear driving gear according to an embodiment of the present invention.
As one example, memory setting parameters of the first vehicle are first acquired as the first setting parameters, including the upper and lower gear 1 st gear as the first upper and lower gear, and the front and rear gear 3 rd gear as the first front and rear gear. The first setting parameters are then converted to first standard parameters according to the primary driving seat standard parameter conversion rules of the first vehicle, specifically, the first up-down gear and the first front-rear gear are respectively converted to a first up-down distance 250 and a first horizontal distance 608 and stored as (250,608). After receiving the instruction of updating the user setting on the second vehicle, matching the first standard parameter with the standard parameter of the vehicle type corresponding to the second vehicle to obtain a second up-down distance 250 and a second front-rear distance 600, so that the corresponding second setting parameter is an up gear 1 st gear serving as a second up-down gear and a front-rear gear 1 st gear serving as a second front-rear gear, and the (up-down gear 1, the front-rear gear 1) is used as a configuration parameter to configure on the second vehicle.
The embodiment realizes the transplantation of the main driving seat setting parameters among different vehicles.
In one embodiment, the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first air-conditioning temperature gear set by a user on the first vehicle, the first standard parameter is a first temperature corresponding to the first air-conditioning temperature gear, the second standard parameter is a second temperature selected according to the first temperature based on a preset matching rule, and the second setting parameter is a second air-conditioning temperature gear corresponding to the second temperature on the second vehicle; or alternatively
The first setting parameter is a first air-conditioning wind direction gear set by a user on a first vehicle, the first standard parameter is a first function corresponding to the first air-conditioning wind direction gear, the second standard parameter is a second function selected according to the first function based on a preset matching rule, and the second setting parameter is a second air-conditioning wind direction gear corresponding to the second function on a second vehicle; or alternatively
The first setting parameter is a first air-conditioning air volume gear set by a user on a first vehicle, the first standard parameter is a first standard air volume corresponding to the first air-conditioning air volume gear, the second standard parameter is a second standard air volume selected according to the first standard air volume based on a preset matching rule, and the second setting parameter is a second air-conditioning air volume gear corresponding to the second standard air volume on a second vehicle.
Table 1 shows the correspondence between the temperature shift, wind direction shift signal and standard parameters of the air conditioner according to an embodiment of the present invention.
TABLE 1
As an example, first, memory setting parameters of a first vehicle are acquired as first setting parameters, including: a temperature gear 1 st gear as a first air conditioning temperature gear, a wind direction gear 2 nd gear as a first air conditioning wind direction gear, and an air volume gear 3 rd gear as a first air conditioning air volume gear. And then converting the first setting parameters into first standard parameters according to the standard air conditioning parameter conversion rules of the first vehicle, specifically converting the first air conditioning air volume gear, the first air conditioning wind direction gear and the first air conditioning air volume gear into first temperature 16 ℃ respectively, and converting the first air conditioning air volume gear into first functional blowing legs and first standard air volume. And then can be stored as (16, blow leg). After receiving an instruction of updating user settings on the second vehicle, matching the first standard parameters with standard parameters of corresponding vehicle types to obtain a second air conditioner temperature gear 5 th gear, a second air conditioner wind direction gear 3 rd gear and a second air conditioner wind volume gear 5 th gear, thereby configuring on the second vehicle by taking (temperature gear 5 th gear, wind direction gear 3 rd gear and wind volume gear 5 th gear) as configuration parameters.
The embodiment realizes the transplanting of the air conditioner setting parameters among different vehicles.
In one embodiment, the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first steering wheel up-down gear set by a user on the first vehicle, the first standard parameter is a first vertical distance between a steering wheel center corresponding to the first steering wheel up-down gear and a current main driving seat position, the second standard parameter is a second vertical distance selected according to the first vertical distance based on a preset matching rule, and the second setting parameter is a second steering wheel up-down gear corresponding to a second vertical distance between the steering wheel center and the current main driving seat position on the second vehicle; or alternatively
The first setting parameter is a first steering wheel front-rear gear set by a user on a first vehicle, the first standard parameter is a first horizontal distance between a steering wheel center corresponding to the first steering wheel front-rear gear and a current main driving seat position, the second standard parameter is a second horizontal distance selected according to the first horizontal distance based on a preset matching rule, and the second setting parameter is a second steering wheel front-rear gear corresponding to a second horizontal distance between the steering wheel center and the current main driving seat position on a second vehicle.
Specifically, the setting parameters of the adjustable steering wheel memory include signals of the upper and lower gears of the steering wheel and the front and rear gears of the steering wheel, and the corresponding standard parameters are the vertical distance and the horizontal distance of the center of the steering wheel relative to the current seat position.
The embodiment realizes the transplanting of the steering wheel setting parameters among different vehicles.
In one embodiment, the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first vertical distance between a center of a passenger seat corresponding to the first vertical distance and a cabin floor, which is set by a user on the first vehicle, the first standard parameter is a first vertical distance between the center of the passenger seat corresponding to the first vertical distance and the cabin floor, the second standard parameter is a second vertical distance selected according to the first vertical distance based on a preset matching rule, and the second setting parameter is a second vertical distance between the center of the passenger seat and the cabin floor, which is set by the user on the second vehicle; or alternatively
The first setting parameter is a first front and rear co-driver gear set by a user on a first vehicle, the first standard parameter is a first horizontal distance between the center of the co-driver seat corresponding to the first front and rear co-driver gear and the rear row seat, the second standard parameter is a second horizontal distance selected according to the first horizontal distance based on a preset matching rule, and the second setting parameter is a second front and rear secondary driving gear corresponding to the second horizontal distance of the rear seat opposite to the center of the secondary driving seat on the second vehicle.
Specifically, the setting parameters memorized by the secondary driver seat are signals of the up-down gear and the front-rear gear of the secondary driver, and the corresponding standard parameters are the vertical distance between the center of the secondary driver seat and the floor of the cabin and the horizontal distance between the center of the secondary driver seat and the rear-row seat.
The embodiment realizes the transplantation of the setting parameters of the auxiliary driving seat among different vehicles.
Example six
Fig. 7 is a schematic diagram of a hardware structure of an electronic device according to the present invention, including:
at least one processor 701; the method comprises the steps of,
a memory 702 communicatively coupled to at least one of the processors 701; wherein, the liquid crystal display device comprises a liquid crystal display device,
the memory 702 stores instructions executable by at least one of the processors to enable the at least one processor to perform the inter-device setup parameter migration method as previously described.
One processor 701 is illustrated in fig. 7.
The electronic device may be an electronic controller unit (Electronic Control Unit, ECU) of the vehicle. The electronic device may further include: an input device 703 and a display device 704.
The processor 701, the memory 702, the input device 703 and the display device 704 may be connected by a bus or other means, in the figures by way of example.
The memory 702 is used as a non-volatile computer readable storage medium, and may be used to store a non-volatile software program, a non-volatile computer executable program, and modules, such as program instructions/modules corresponding to the method for transplanting parameters set between devices in the embodiment of the present application, for example, the method flow shown in fig. 1. The processor 701 executes various functional applications and data processing by running nonvolatile software programs, instructions, and modules stored in the memory 702, that is, implements the inter-device setting parameter migration method in the above-described embodiment.
Memory 702 may include a storage program area that may store an operating system, at least one application program required for functionality, and a storage data area; the storage data area may store data created according to the use of the inter-device setting parameter migration method, and the like. In addition, the memory 702 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage device. In some embodiments, memory 702 optionally includes memory remotely located with respect to processor 701, which may be connected via a network to means for performing the inter-device setup parameter migration method. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.
The input device 703 may receive input user clicks and generate signal inputs related to user settings and function control of the inter-device setting parameter migration method. The display device 704 may include a display apparatus such as a display screen.
The inter-device setup parameter migration method in any of the method embodiments described above is performed when the one or more modules are stored in the memory 702 and when executed by the one or more processors 701.
According to the invention, the setting parameters are converted into the standard parameters for storage, the parameter conversion rules of the devices of all types are set, the setting parameters memorized by the devices are converted into the standard parameters for storage, and when the standard parameters are required to be imported, the standard parameters are converted into the actual parameters according to the conversion rules of different types for importing, so that the same effect is ensured to be realized on different devices.
An embodiment of the present invention provides a storage medium storing computer instructions that, when executed by a computer, perform all the steps of an inter-device setup parameter migration method as described above.
The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.
Claims (11)
1. An inter-device set parameter migration method, comprising:
acquiring a first setting parameter of a user in first equipment, converting the first setting parameter into a first standard parameter according to a first parameter conversion rule of the type of the first equipment, and storing the first standard parameter;
responding to a transplanting instruction for transplanting the first setting parameters on the second equipment, acquiring the first standard parameters, converting the first standard parameters into second setting parameters meeting the second equipment according to a second parameter conversion rule of the type of the second equipment,
setting the second setting parameters on a second device;
the setting the second setting parameter on the second device specifically includes:
acquiring other setting parameters of other equipment corresponding to the first standard parameters, and taking the other setting parameters with the largest setting times as correction setting parameters, wherein the types of the other equipment are consistent with the types of the second equipment;
and if the proportion of the setting times of the correction setting parameters to the total transplanting times is smaller than a preset proportion threshold value, setting the second setting parameters on second equipment, otherwise, setting the correction setting parameters on the second equipment, wherein the total transplanting times are the total times of converting the first standard parameters into the second setting parameters on other equipment with the same type as the second equipment.
2. The method for transplanting setting parameters between devices according to claim 1, wherein the converting the first standard parameter into the second setting parameter satisfying the second device according to the second parameter conversion rule of the type of the second device specifically comprises:
based on a preset matching rule, selecting one second standard parameter from a plurality of second standard parameters as a second standard parameter to be converted according to the first standard parameter, wherein each second standard parameter corresponds to a setting parameter meeting second equipment;
and converting the second standard parameters to be converted into second setting parameters according to a second parameter conversion rule of the type of the second equipment.
3. The method for transplanting set parameters between devices according to claim 2, wherein the matching rule is: and selecting a second standard parameter closest to the first standard parameter as a second standard parameter to be converted.
4. The method for transplanting setting parameters between devices according to claim 1, wherein the obtaining other setting parameters of other devices corresponding to the first standard parameter specifically includes:
and acquiring the setting parameters which are manually modified by other equipment in preset time after the second setting parameters are set, and taking the setting parameters as other setting parameters corresponding to the first standard parameters.
5. The method for transplanting setting parameters between devices according to claim 2, wherein the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first light gear set by a user on the first vehicle, the first standard parameter is a first standard color parameter corresponding to the first light gear, the second standard parameter is a second standard color parameter selected according to the first standard color parameter based on a preset matching rule, and the second setting parameter is a second light gear corresponding to the second standard color parameter on the second vehicle.
6. The inter-device setting parameter transplanting method according to claim 2, wherein the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first main driving up-down gear set by a user on the first vehicle, the first standard parameter is a first vertical distance between a main driving seat center corresponding to the first main driving up-down gear and a cabin floor, the second standard parameter is a second vertical distance selected according to the first vertical distance based on a preset matching rule, and the second setting parameter is a second main driving up-down gear corresponding to a second vertical distance between the main driving seat center and the cabin floor on the second vehicle; or alternatively
The first setting parameter is a first main driving front-rear gear set by a user on a first vehicle, the first standard parameter is a first horizontal distance between a main driving seat center corresponding to the first main driving front-rear gear and a pedal, the second standard parameter is a second horizontal distance selected according to the first horizontal distance based on a preset matching rule, and the second setting parameter is a second main driving front-rear gear corresponding to a second horizontal distance between the main driving seat center and the pedal on a second vehicle.
7. The inter-device setting parameter migration method according to claim 2, wherein the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first air-conditioning temperature gear set by a user on the first vehicle, the first standard parameter is a first temperature corresponding to the first air-conditioning temperature gear, the second standard parameter is a second temperature selected according to the first temperature based on a preset matching rule, and the second setting parameter is a second air-conditioning temperature gear corresponding to the second temperature on the second vehicle; or alternatively
The first setting parameter is a first air-conditioning wind direction gear set by a user on a first vehicle, the first standard parameter is a first function corresponding to the first air-conditioning wind direction gear, the second standard parameter is a second function selected according to the first function based on a preset matching rule, and the second setting parameter is a second air-conditioning wind direction gear corresponding to the second function on a second vehicle; or alternatively
The first setting parameter is a first air-conditioning air volume gear set by a user on a first vehicle, the first standard parameter is a first standard air volume corresponding to the first air-conditioning air volume gear, the second standard parameter is a second standard air volume selected according to the first standard air volume based on a preset matching rule, and the second setting parameter is a second air-conditioning air volume gear corresponding to the second standard air volume on a second vehicle.
8. The method for transplanting setting parameters between devices according to claim 2, wherein the first device is a first vehicle, the second device is a second vehicle, the first setting parameter is a first steering wheel up-down gear set by a user on the first vehicle, the first standard parameter is a first vertical distance between a steering wheel center corresponding to the first steering wheel up-down gear and a current main driving seat position, the second standard parameter is a second vertical distance selected according to the first vertical distance based on a preset matching rule, and the second setting parameter is a second steering wheel up-down gear corresponding to a second vertical distance between the steering wheel center and the current main driving seat position on the second vehicle; or alternatively
The first setting parameter is a first steering wheel front-rear gear set by a user on a first vehicle, the first standard parameter is a first horizontal distance between a steering wheel center corresponding to the first steering wheel front-rear gear and a current main driving seat position, the second standard parameter is a second horizontal distance selected according to the first horizontal distance based on a preset matching rule, and the second setting parameter is a second steering wheel front-rear gear corresponding to a second horizontal distance between the steering wheel center and the current main driving seat position on a second vehicle.
9. The inter-equipment setting parameter transplanting method according to claim 2, wherein the first equipment is a first vehicle, the second equipment is a second vehicle, the first setting parameter is a first vertical distance between a center of a passenger seat corresponding to the first vertical distance and a cabin floor, which is set by a user on the first vehicle, the second standard parameter is a second vertical distance selected according to the first vertical distance based on a preset matching rule, and the second setting parameter is a second vertical distance between the second vehicle and a second vertical distance between the center of the passenger seat and the cabin floor; or alternatively
The first setting parameter is a first front and rear co-driver gear set by a user on a first vehicle, the first standard parameter is a first horizontal distance between the center of the co-driver seat corresponding to the first front and rear co-driver gear and the rear row seat, the second standard parameter is a second horizontal distance selected according to the first horizontal distance based on a preset matching rule, and the second setting parameter is a second front and rear secondary driving gear corresponding to the second horizontal distance of the rear seat opposite to the center of the secondary driving seat on the second vehicle.
10. An electronic device, comprising:
at least one processor; the method comprises the steps of,
a memory communicatively coupled to at least one of the processors; wherein, the liquid crystal display device comprises a liquid crystal display device,
the memory stores instructions executable by at least one of the processors to enable the at least one of the processors to perform the inter-device setup parameter migration method of any one of claims 1 to 9.
11. A storage medium storing computer instructions which, when executed by a computer, are adapted to carry out all the steps of the inter-device set parameter migration method of any one of claims 1 to 9.
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