CN112039736A - Intelligent equipment upgrading method and device, intelligent home system and electronic equipment - Google Patents

Abstract

The application discloses an upgrading method and device of intelligent equipment, an intelligent home system and electronic equipment, wherein an intelligent main control device downloads a first upgrading data packet corresponding to a plurality of first intelligent equipment from a server, the first intelligent equipment with the jump times between the intelligent main control device and the first intelligent equipment is selected from the plurality of first intelligent equipment as first target intelligent equipment, the first upgrading data packet is sent to the first target intelligent equipment, the first target intelligent equipment is upgraded based on the first upgrading data packet, then second target intelligent equipment is selected from the plurality of first intelligent equipment, the first target intelligent equipment sends the first upgrading data packet to the second target intelligent equipment so as to indicate that the second target intelligent equipment is upgraded based on the first upgrading data packet, the understandable jump distance between the equipment with the minimum jump times is nearest, when the first intelligent equipment is upgraded, the first upgrading data packets are all sent by the equipment with the closest jump distance, and the updating efficiency is improved.

Description

Intelligent equipment upgrading method and device, intelligent home system and electronic equipment

Technical Field

The application relates to the technical field of smart home, in particular to an upgrading method and device of smart equipment, a smart home system and electronic equipment.

Background

With the development of communication technology and smart home, the number and functions of smart devices are increasing, and convenience is brought to daily life of people. In order to improve the performance of the smart home devices and improve the user experience, numerous smart home devices are often required to be upgraded. Generally, the master control device sends the upgrade data packets to each smart home device one by one for upgrading, which results in low upgrade efficiency.

Disclosure of Invention

In view of the above problems, the present application provides an upgrading method and apparatus for an intelligent device, an intelligent home system, and an electronic device, which can improve upgrading efficiency of the intelligent device.

In a first aspect, an embodiment of the present application provides an upgrading method for an intelligent device, where the method is applied to an intelligent master control device of an intelligent home system, the intelligent home system further includes a plurality of first intelligent devices, and the method includes: downloading a first upgrade data packet for the plurality of first smart devices from a server; selecting a first target intelligent device from the plurality of first intelligent devices, wherein the number of jumping between the first target intelligent device and the intelligent main control device is the least in the plurality of first intelligent devices; sending the first upgrade data packet to the first target intelligent device to indicate the first target intelligent device to upgrade based on the first upgrade data packet; when the first target intelligent equipment is upgraded, selecting second target intelligent equipment from the plurality of first intelligent equipment, wherein the number of jumping between the second target intelligent equipment and the first target intelligent equipment is the least in the plurality of first intelligent equipment; and controlling the first target intelligent equipment to send the first upgrading data packet to the second target intelligent equipment so as to instruct the second target intelligent equipment to upgrade based on the first upgrading data packet.

In a second aspect, an embodiment of the present application provides an upgrading method for an intelligent device, which is applied to a first target intelligent device in a plurality of first intelligent devices, where the intelligent home system further includes an intelligent master control device, and the method includes: receiving a first upgrade data packet sent by the intelligent master control device and aiming at the plurality of first intelligent devices, wherein the first upgrade data packet is downloaded from the server by the intelligent master control device, and the number of jumping between the first target intelligent device and the intelligent master control device is the least in the plurality of first intelligent devices; upgrading based on the first upgrading data packet; after upgrading is completed, selecting second target intelligent equipment from the plurality of first intelligent equipment, wherein the number of jumping between the second target intelligent equipment and the first target intelligent equipment is the least in the plurality of first intelligent equipment; and sending the first upgrading data packet to the second target intelligent equipment to indicate the second target intelligent equipment to upgrade based on the first upgrading data packet.

In a third aspect, an embodiment of the present application provides an upgrading apparatus for an intelligent device, including: a download module to download a first upgrade data package for the plurality of first smart devices from a server; a first selection module, configured to select a first target intelligent device from the multiple first intelligent devices, where, in the multiple first intelligent devices, a number of hops between the first target intelligent device and the intelligent master control device is minimum; a sending module, configured to send the first upgrade data packet to the first target intelligent device, so as to instruct the first target intelligent device to perform upgrade based on the first upgrade data packet; a second selecting module, configured to select a second target smart device from the multiple first smart devices when the first target smart device is upgraded, where a number of hops between the second target smart device and the first target smart device is minimum in the multiple first smart devices; and the control module is used for controlling the first target intelligent equipment to send the first upgrading data packet to the second target intelligent equipment so as to indicate the second target intelligent equipment to upgrade based on the first upgrading data packet.

In a fourth aspect, an embodiment of the present application provides an intelligent home system, including: the intelligent main control device comprises an intelligent main control device and a plurality of first intelligent devices; the intelligent main control device is used for downloading a first upgrading data packet aiming at the plurality of first intelligent devices from a server; the intelligent main control device is further configured to select a first target intelligent device from the plurality of first intelligent devices, where, in the plurality of first intelligent devices, the number of hops between the first target intelligent device and the intelligent main control device is the least; the intelligent main control device is further configured to send the first upgrade data packet to the first target intelligent device; the first target intelligent device is used for upgrading based on the first upgrading data packet; the intelligent main control device is further configured to select a second target intelligent device from the plurality of first intelligent devices when the first target intelligent device is upgraded, wherein the number of hops between the second target intelligent device and the first target intelligent device is the least in the plurality of first intelligent devices; the intelligent main control device is further configured to control the first target intelligent device to send the first upgrade data packet to the second target intelligent device; and the second target intelligent equipment is used for upgrading based on the first upgrading data packet.

In a fifth aspect, an embodiment of the present application provides an electronic device, including: one or more processors; a memory; one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the above-described methods.

In a sixth aspect, the present application provides a computer-readable storage medium, where a program code is stored in the computer-readable storage medium, and the program code can be called by a processor to execute the above method.

The invention provides an upgrading method and device of intelligent equipment, an intelligent home system and electronic equipment, wherein an intelligent main control device downloads a first upgrading data packet corresponding to a plurality of first intelligent equipment from a server, the first intelligent equipment with the jumping frequency between the intelligent main control device and the first intelligent equipment is selected from the first intelligent equipment as first target intelligent equipment, the first upgrading data packet is sent to the first target intelligent equipment, the first target intelligent equipment is upgraded based on the first upgrading data packet, then second target intelligent equipment is selected from the first intelligent equipment, wherein the jumping frequency between the second target intelligent equipment and the first target intelligent equipment is minimum in the first intelligent equipment, the first target intelligent equipment sends the first upgrading data packet to the second target intelligent equipment to indicate that the second target intelligent equipment is upgraded based on the first upgrading data packet, it can be understood that the equipment with the least number of hops has the closest hop distance, and when the first intelligent equipment is upgraded, the equipment with the closest hop distance sends the first upgrade data packet, so that the updating efficiency is greatly improved.

These and other aspects of the present application will be more readily apparent from the following description of the embodiments.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 shows an application environment schematic diagram of an intelligent home system provided in an embodiment of the present application;

fig. 2 is a flowchart illustrating an upgrading method for an intelligent device according to an embodiment of the present application;

fig. 3 is a flowchart illustrating an upgrading method for an intelligent device according to another embodiment of the present application;

fig. 4 illustrates an upgrade timing schedule of a first smart device and a second smart device provided in an embodiment of the present application;

fig. 5 is a flowchart illustrating an upgrading method for an intelligent device according to another embodiment of the present application;

fig. 6 is a flowchart illustrating an upgrading method for an intelligent device according to another embodiment of the present application;

fig. 7 is a flowchart illustrating an upgrading method for an intelligent device according to another embodiment of the present application;

fig. 8 is a flowchart illustrating an upgrading method for an intelligent device according to another embodiment of the present application;

FIG. 9 shows a block diagram of an upgrade apparatus for a smart device according to one embodiment of the present application;

fig. 10 is a block diagram of an electronic device for executing an upgrade method of an intelligent device according to an embodiment of the present application;

fig. 11 illustrates a storage unit for storing or carrying program codes for implementing an upgrade method of an intelligent device according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

With the development of communication technology and smart home, the number and functions of smart home devices are increasing, and convenience is brought to daily life of people. And the demand that the reply user increases gradually, in order to promote intelligent household equipment's performance, improve user's use and experience, often need upgrading numerous intelligent household equipment. In the prior art, generally, an intelligent master control device sends upgrade data packets to each intelligent home device one by one for upgrading, specifically, fig. 1 shows an application environment schematic diagram of an intelligent home system provided in an embodiment of the present application, and referring to fig. 1, the intelligent home system includes an intelligent master control device 200 and a plurality of intelligent devices, where the plurality of intelligent devices are, for example, the intelligent devices a1-a5 and B1-B6 in fig. 1.

The intelligent master device 200 is communicatively connected to the server 100, for example, the intelligent master device 200 is communicatively connected to the server 100 through a mesh (wireless mesh network) or ZigBee (mesh personal area network). It should be noted that, the network for communication between the intelligent master control device 200 and the server 100 may be in other manners besides mesh and ZigBee, and is not limited herein. The intelligent main control device 200 may be a gateway, such as a mesh gateway, or a mobile terminal, a tablet computer, a computer, or the like of a user. The server 100 may be a cloud server or a conventional server.

The intelligent master control device 200 is connected to a plurality of intelligent devices in a direct or indirect manner, wherein the intelligent master control device 200 is directly connected to the intelligent device of its next hop, as shown in fig. 1, the intelligent master control device 200 is directly connected to the intelligent device a1 and the intelligent device B1. The intelligent master device 200 is indirectly connected with the other intelligent devices through the intelligent device of its next hop, for example, the intelligent master device 200 is indirectly connected with the intelligent device a2 through the intelligent device a1 of its next hop. The smart device may include, but is not limited to, a door and window sensor, a smart switch, a lamp, an air conditioner, a curtain, a television, a refrigerator, and a fan.

In the upgrading mode in the prior art, after the intelligent main control device 200 downloads the upgrade data packets from the server 100, the upgrade data packets are sent to each intelligent device one by one, and when one intelligent device receives the upgrade data packets and completes the system upgrade of the intelligent device, the intelligent main control device 200 sends the upgrade data packets to the other intelligent devices, so that each intelligent device is upgraded based on the received upgrade data packets. Referring to fig. 1, when upgrading a class a smart device (smart device a1-a5), the smart master control device 200 downloads a first upgrade data packet corresponding to the class a smart device from the server 100, and sends the first upgrade data packet to the smart device a1 for upgrading, where a duration of each hop is taken as t, a distance between the smart master control device 200 and the smart device a1 is taken as one hop, and a duration of upgrading the smart device a1 by the smart master control device 200 is taken as t. After the upgrade of the intelligent device a1 is finished, the intelligent main control device 200 sends the first upgrade data packet to the intelligent device a2 for upgrade, the distance between the intelligent main control device 200 and the intelligent device a2 is two hops, and the time length for upgrading the intelligent device a2 by the intelligent main control device 200 is 2 t. Similarly, the distances between the intelligent master control device 200 and the intelligent devices A3, a4, and a5 are three hops, and therefore, the time duration for upgrading the intelligent devices A3, a4, and a5 by the intelligent master control device 200 is 3 t. Therefore, the time required for the intelligent main control device 200 to complete the upgrade of the class a intelligent device is 12 t.

The manner of upgrading the class B smart devices by the smart master control device 200 is similar to that of the class a smart devices, the smart master control device 200 downloads a second upgrade data packet corresponding to the class B smart devices from the server 100, and sends the second upgrade data packet to each class B smart device for upgrading, please continue to refer to fig. 1, distances between the smart devices B1-B6 and the smart master control device 200 are 1 hop, 2 hop, 3 hop, and correspondingly, durations required for completing upgrading are 1t, 2t, 3t, and 3t, respectively. Therefore, the time required for the intelligent main control device 200 to complete the upgrade of the class B intelligent device is 13 t.

Therefore, it takes 25t (i.e. 12t +13t) to complete the upgrade of all the smart devices in fig. 1 in the prior art.

Because intelligent master control equipment 200 sends the upgrading data package to any one of numerous intelligent equipment among the prior art, after this intelligent equipment upgrades successfully, sends the upgrading data package to all the other intelligent equipment again, consequently, in the prior art, the number of upgrading intelligent equipment at every turn only has one, leads to the problem that intelligent equipment upgrading speed is slow, and upgrading efficiency is low.

The inventor finds that an upgrade method and device for intelligent equipment, an intelligent home system and electronic equipment are provided, and after the intelligent main control equipment sends an upgrade data packet to a first target intelligent equipment closest to a jump distance of the intelligent main control equipment, the first target intelligent equipment is updated, and then the first target intelligent equipment is controlled to send the upgrade data packet to a second target intelligent equipment closest to the jump distance of the intelligent main control equipment. The first target intelligent device directly sends the upgrade data packet to the second target intelligent device, and transfer time length of the upgrade data packet sent to the second target intelligent device after the upgrade data packet is sent to the first target intelligent device by the intelligent main control device is saved. And when a plurality of second target intelligent devices are provided, the plurality of target intelligent devices can be upgraded simultaneously, and the upgrading efficiency is greatly improved.

The structure of the smart home system related to the present application is the same as that in fig. 1, the method for upgrading the smart device provided by the present application may be applied to the smart master control device 200 shown in fig. 1, and the method for upgrading the smart device is described in detail below, fig. 2 shows a flowchart of the method for upgrading the smart device provided by an embodiment of the present application, please refer to fig. 2, and the upgrading of the smart device may specifically include the following steps:

step S110, downloading a first upgrade data package for a plurality of first smart devices from a server.

In one possible embodiment, the plurality of first intelligent devices are of the same type, for example, the plurality of intelligent devices are all air conditioners, and when the plurality of air conditioners need to be updated, the air conditioners download the first upgrade data packets.

In another possible embodiment, the plurality of first smart devices each include the same software, for example, a refrigerator and an air conditioner each include software for adjusting temperature, and when the software needs to be upgraded, an upgrade data packet corresponding to the software is downloaded.

Alternatively, the first upgrade data packet downloaded by the intelligent master control device from the server may be an Over-the-air technology (OTA) file.

Step S120, selecting a first target intelligent device from the plurality of first intelligent devices, where in the plurality of first intelligent devices, the number of hops between the first target intelligent device and the intelligent main control device is the least.

Based on the above example, with reference to fig. 1, when the first smart device is a class a smart device, the number of hops between the smart device a1 and the smart master device 200 in the class a smart device is one hop, and the number of hops in all the class a smart devices is the minimum, and it is determined that the smart device a1 is the first target smart device.

Step S120 includes the following substeps:

and a substep S121, when the number of the first intelligent devices with the smallest number of hops with the intelligent master control device is multiple, sequentially determining the multiple first intelligent devices with the smallest number of hops with the intelligent master control device as first target intelligent devices.

For example, the number of the first smart devices directly connected to the first target smart device a1 is 2, that is, the hop count is one hop, and the two devices are the first smart device a2 and the first smart device a6 (not shown in fig. 1), and the first target smart device a1 sequentially sends the first upgrade data packet to the first smart device a2 and the first smart device a 6.

Step S130, the first upgrading data packet is sent to the first target intelligent device so as to indicate the first target intelligent device to upgrade based on the first upgrading data packet.

Referring to fig. 1, the intelligent master control device sends the first upgrade data packet to the first target intelligent device a1, the first target intelligent device a1 performs upgrade based on the first upgrade data packet, and after the first target intelligent device a1 is upgraded successfully, the information after the upgrade is successful is fed back to the intelligent master control device.

And S140, when the first target intelligent equipment is upgraded, selecting second target intelligent equipment from the plurality of first intelligent equipment, wherein the jumping times of the second target intelligent equipment and the first target intelligent equipment are the least in the plurality of first intelligent equipment.

Referring to fig. 1, after the intelligent master device receives the information of successful upgrade fed back by the first target device a1, the number of hops between the intelligent device a2 and the first target intelligent device a1 is one hop, and the number of hops is the minimum number of hops, so the intelligent device a2 is the second target intelligent device.

Step S150, controlling the first target smart device to send the first upgrade data packet to the second target smart device, so as to instruct the second target smart device to upgrade based on the first upgrade data packet.

In a possible implementation manner, the number of the second target smart devices is one, please continue to refer to fig. 1, the smart master device controls the first target smart device a1 to send the first upgrade data packet to the second target smart device a 2.

In another possible implementation manner, when a plurality of second target intelligent devices are provided, the first upgrade data packet is sequentially sent to each second target intelligent device to receive the first upgrade data packet. For example, the number of the first smart devices directly connected to the first target smart device a1 is 2, that is, the hop count is one hop, and the two devices are the first smart device a2 and the first smart device a6 (not shown in fig. 1), the first target smart device a1 sends the first upgrade data packet to the first smart device a2, and after the first smart device a2 completes the upgrade, the first upgrade data packet is sent to the first smart device a6 for upgrade. Or the first target intelligent device a1 sends the first upgrade data packet to the first intelligent device a2, and the intelligent master control device sends the first upgrade data packet to the first intelligent device a6 for upgrading. Or the first target intelligent device a1 sends the first upgrade data packet to the first intelligent device a6, and the intelligent master device sends the first upgrade data packet to the first intelligent device a2 for upgrading.

Referring to fig. 1, after the first target smart device a1 finishes updating the second target smart device a2, the first smart device with the least number of hops (i.e., two hops) with the first target smart device a1 is a5, and the second target smart device is updated, with a5 as the first target smart device. Similar to step S150, the first target smart device a1 is controlled to send a first upgrade data packet to the second target smart device a5 to instruct the second target smart device a5 to upgrade based on the first upgrade data packet.

In the upgrading method for the intelligent device provided in this embodiment, the intelligent main control device downloads a first upgrading data packet corresponding to a plurality of first intelligent devices from the server, selects a first intelligent device with the number of hops between the intelligent main control device and the main control device from the plurality of first intelligent devices as a first target intelligent device, sends the first upgrading data packet to the first target intelligent device, and after the first target intelligent device is upgraded based on the first upgrading data packet, selects a second target intelligent device from the plurality of first intelligent devices, wherein, in the plurality of first intelligent devices, the number of hops between the second target intelligent device and the first target intelligent device is the minimum, and the first target intelligent device sends the first upgrading data packet to the second target intelligent device to indicate that the second target intelligent device is upgraded based on the first upgrading data packet, which can be understood that the distance of hops between the devices with the minimum number of hops is the closest, when the first intelligent equipment is upgraded, the first upgrading data packet is sent by the equipment with the closest skip distance, so that the updating efficiency is greatly improved.

In this embodiment, on the basis of the foregoing embodiment, a flow of an upgrading method for an intelligent device is provided, where a plurality of first intelligent devices in an intelligent home system are upgraded, and fig. 3 shows a flow of an upgrading method for an intelligent device provided in another embodiment of the present application, and please refer to fig. 3, where the method specifically includes, but is not limited to, the following steps:

step S210, downloading a first upgrade data packet for a plurality of first smart devices from a server.

Step S220, selecting a first target intelligent device from the plurality of first intelligent devices, where the number of hops between the first target intelligent device and the intelligent main control device is the least in the plurality of first intelligent devices.

Step S230, sending the first upgrade data packet to the first target intelligent device to instruct the first target intelligent device to upgrade based on the first upgrade data packet.

Step S240, when the first target intelligent device is upgraded, selecting a second target intelligent device from the plurality of first intelligent devices, where in the plurality of first intelligent devices, the number of hops between the second target intelligent device and the first target intelligent device is the least.

And step S250, controlling the first target intelligent equipment to send the first upgrading data packet to the second target intelligent equipment so as to instruct the second target intelligent equipment to upgrade based on the first upgrading data packet.

For the detailed description of steps S210 to S250, refer to steps S110 to S150, which are not described herein again.

And S260, when the second target intelligent equipment is upgraded, selecting fifth target intelligent equipment from the plurality of first intelligent equipment, wherein the number of jumping between the fifth target intelligent equipment and the second target intelligent equipment is the least in the plurality of first intelligent equipment.

Referring to fig. 1, when the second target smart device a2 finishes upgrading, the first smart devices with the fewest hops from the second target smart device a2 among the plurality of first smart devices (class a smart devices) are A3 and a4, and it is determined that the first smart devices are A3 and a4 as fifth target smart devices.

Step S270, the second target smart device is controlled to send the first upgrade data packet to the fifth target smart device, so as to instruct the fifth target smart device to upgrade based on the first upgrade data packet.

The second target smart device a2 and the smart master device transmit the first upgrade data packet to the fifth target smart device A3 and a4, respectively, for upgrade. For example, the second target smart device a2 sends the first upgrade data packet to the fifth smart device A3, and the smart master device sends the first upgrade data packet to the fifth smart device a4 for upgrade. Or, the second target smart device a2 sends the first upgrade data packet to the fifth smart device a4, and the smart master device sends the first upgrade data packet to the fifth smart device A3 for upgrading.

In this embodiment, the first upgrade data packets obtained for each first smart device are all derived from the smart device with the least number, so that different first smart devices can be updated simultaneously. Taking the duration of each hop as t, fig. 4 shows an upgrade timing chart of the first intelligent device and the second intelligent device provided in an embodiment of the present application, as shown in fig. 4, a horizontal axis represents time, and a vertical axis represents the intelligent devices. At time 0-1t as shown in FIG. 4, the first target smart device A1 is upgraded. At the 4 th t moment, the A4 and A5 in the first intelligent device finish upgrading, and the upgrading of the first intelligent device is finished by 4 t.

In a possible implementation manner, a first smart device is classified according to device types, when the device types include a plurality of device types, this embodiment provides an upgrade method for a smart device, so as to upgrade a plurality of types of devices, fig. 5 shows a flowchart of an upgrade method for a smart device according to another embodiment of the present application, and please refer to fig. 5, the method may specifically include, but is not limited to, the following steps:

step S310, downloading a first upgrading data package aiming at a plurality of first intelligent devices and a second upgrading data package aiming at a plurality of second intelligent devices from a server.

Step S320, selecting a first target intelligent device from the plurality of first intelligent devices, where in the plurality of first intelligent devices, the number of hops between the first target intelligent device and the intelligent main control device is the least.

Step S330, the first upgrading data packet is sent to the first target intelligent device to indicate the first target intelligent device to upgrade based on the first upgrading data packet.

Step S340, when the first target intelligent equipment is upgraded, selecting second target intelligent equipment from the plurality of first intelligent equipment, wherein the jumping times of the second target intelligent equipment and the first target intelligent equipment are minimum in the plurality of first intelligent equipment.

For detailed description of steps S310 to S340, please refer to steps S110 to S140, which are not described herein again.

The device type of the first intelligent device is different from that of the second intelligent device, and corresponding upgrading data are different, so that the first intelligent device and the second intelligent device need to be upgraded respectively by the intelligent main control device, when resources (such as storage capacity, calculation amount and the like) of the intelligent main control device meet data sending conditions, a first upgrading data packet can be sent to the first target intelligent device, and meanwhile, the second upgrading data packet can be sent to the third target intelligent device, so that the two types of devices are upgraded simultaneously, and the upgrading efficiency is improved.

However, when the intelligent master control device is restricted by its resources, and the intelligent master control device cannot update the first target intelligent device and the third target intelligent device at the same time, after the intelligent master control device has transmitted the first upgrade data packet to the first target intelligent device, the intelligent master control device leaves the resources free, and may execute the following step S350 to update the third target intelligent device.

And step S350, selecting a third target intelligent device from the plurality of second intelligent devices, wherein the number of jumping between the third target intelligent device and the intelligent main control device is the least in the plurality of second intelligent devices.

Continuing with fig. 1, for example, the second smart device is a class B smart device. The jumping times of the intelligent device B1 and the intelligent main control device 200 in the class B intelligent devices are one hop, the jumping times in all the class B intelligent devices are the least, and the intelligent device B1 is determined to be a third target intelligent device.

And step S360, sending the second upgrading data packet to the third target intelligent equipment to indicate the third target intelligent equipment to upgrade based on the second upgrading data packet.

The intelligent main control device sends the second upgrading data packet to the third target intelligent device B1, the third target intelligent device B1 carries out upgrading based on the second upgrading data packet, and after the third target intelligent device B1 is upgraded successfully, information after the upgrading is successful is fed back to the intelligent main control device.

When the third target intelligent device B1 is upgraded successfully, the second intelligent device with the least number of hops (i.e., two hops) with the intelligent master control device is B2, and the third target intelligent device is updated, with B2 as the third target intelligent device. Similar to step S360, the third target smart device B2 is controlled to send a second upgrade data packet to the updated third target smart device B2 to instruct the updated third target smart device B2 to upgrade based on the first upgrade data packet.

After the second smart device B2 is upgraded, the second smart device B4 having the least number of hops with the smart master device upgrades it.

Optionally, steps S350 and S360 may upgrade the second smart device after step S370, that is, after the first smart device is completely upgraded successfully. Step S350 and step S360 may be performed after step S330, that is, after the intelligent main control device sends the first upgrade data packet to the first target device, reserve a resource, and then send the second upgrade data packet to the third target device.

Step S370, controlling the first target smart device to send the first upgrade data packet to the second target smart device, so as to instruct the second target smart device to upgrade based on the first upgrade data packet.

Please refer to step S150 for detailed description of step S370.

In this embodiment, on the basis of the foregoing embodiment, a flow of an upgrading method for an intelligent device is provided, where multiple second intelligent devices in an intelligent home system are upgraded, and fig. 6 shows a flow chart of an upgrading method for an intelligent device according to another embodiment of the present application, please refer to fig. 6, where the method specifically includes, but is not limited to, the following steps:

and S410, downloading a plurality of second upgrading data packets of second intelligent equipment from the server.

And step S420, selecting a third target intelligent device from the plurality of second intelligent devices, wherein the number of jumping between the third target intelligent device and the intelligent main control device is the least in the plurality of second intelligent devices.

And step S430, sending the second upgrading data packet to the third target intelligent equipment to instruct the third target intelligent equipment to upgrade based on the second upgrading data packet.

For the detailed description of step S420-step S430, refer to step S350-step S360.

Step S440, when the upgrade of the third target smart device is completed, selecting a fourth target smart device from the plurality of second smart devices, where, in the plurality of second smart devices, the number of hops between the fourth target smart device and the third target smart device is the least.

Referring to fig. 1, the number of hops between the third target smart device B1 and the second smart device B3 is the least, and the second smart device B3 is determined to be the fourth target smart device.

And S450, controlling the third target intelligent equipment to send the second upgrading data packet to the fourth target intelligent equipment so as to instruct the fourth target intelligent equipment to upgrade based on the second upgrading data packet.

Similarly, the second smart devices closest to the fourth target smart device B3 are B5 and B6, and the fourth target smart device B3 sends the second upgrade data to B5 and B6 for upgrade.

Referring to fig. 4, the first intelligent device (class a intelligent device) and the second intelligent device (class B intelligent device) are upgraded simultaneously, and after the upgrade of B4 and B6 is finished, the upgrade of the second intelligent device is finished. 6t when all smart machine upgrades finish using, compare in prior art's 25t, this application has promoted upgrading efficiency by a wide margin.

Fig. 7 is a flowchart illustrating an upgrading method for an intelligent device according to another embodiment of the present application, please refer to fig. 7, where the method includes the following steps:

step S510, downloading a first upgrade data package for a plurality of first smart devices from a server.

Step S520, selecting a first target intelligent device from the plurality of first intelligent devices, where the number of hops between the first target intelligent device and the intelligent main control device is the least in the plurality of first intelligent devices.

For the detailed description of steps S510 to S520, refer to steps S210 to S220, which are not described herein again.

Step S530, obtaining the version information of the first upgrading data packet and obtaining the version information of the first target intelligent equipment.

And the version of the first upgrading data packet is the latest version.

Step S540, when the version information of the first upgrade data package is different from the version information of the first target intelligent device, sending the first upgrade data package to the first target intelligent device to instruct the first target intelligent device to upgrade based on the first upgrade data package.

When the version information of the first upgrade data packet is the same as the version information of the first target intelligent device, the version of the first target intelligent device is the latest version, upgrading is not needed, and the intelligent main control device does not update the first target intelligent device.

It should be noted that, in all the first intelligent devices, if the version information of any one of the first intelligent devices is different from the version information in the first upgrade data packet, the intelligent device needs to be upgraded.

And S550, when the upgrading of the first target intelligent equipment is completed, selecting second target intelligent equipment from the plurality of first intelligent equipment, wherein the jumping times of the second target intelligent equipment and the first target intelligent equipment are the least in the plurality of first intelligent equipment.

Step S560, controlling the first target smart device to send the first upgrade data packet to the second target smart device, so as to instruct the second target smart device to upgrade based on the first upgrade data packet.

For detailed description of steps S550 to S560, please refer to steps S240 to S250, which are not described herein again.

Fig. 8 is a flowchart illustrating an upgrading method for an intelligent device according to another embodiment of the present application, please refer to fig. 8, which is applied to a first target intelligent device in a plurality of first intelligent devices, where the intelligent home system further includes an intelligent master device, and the method includes:

step S610, receiving a first upgrading data packet which is sent by the intelligent main control device and aims at the plurality of first intelligent devices, wherein the first upgrading data packet is downloaded from a server by the intelligent main control device, and the jumping times of a first target intelligent device and the intelligent main control device are minimum in the plurality of first intelligent devices;

step S620, upgrading is carried out based on the first upgrading data packet;

step S630, after the upgrade is completed, selecting a second target intelligent device from the plurality of first intelligent devices, wherein the number of jumping times between the second target intelligent device and the first target intelligent device is the least in the plurality of first intelligent devices;

step S640, sending the first upgrade data packet to the second target intelligent device to instruct the second target intelligent device to upgrade based on the first upgrade data packet.

To implement the above method class embodiments, this embodiment provides an upgrading apparatus for an intelligent device, fig. 9 shows a block diagram of an upgrading apparatus for an intelligent device according to an embodiment of the present application, please refer to fig. 9, an upgrading apparatus 600 for an intelligent device includes a downloading module 610, a first selecting module 620, a sending module 630, a second selecting module 640, and a control module 650.

A download module 610 for downloading a first upgrade data package for a plurality of first smart devices from a server;

a first selecting module 620, configured to select a first target intelligent device from the multiple first intelligent devices, where a number of hops between the first target intelligent device and the intelligent master control device is minimum in the multiple first intelligent devices;

a sending module 630, configured to send the first upgrade data packet to the first target intelligent device, so as to instruct the first target intelligent device to upgrade based on the first upgrade data packet;

a second selecting module 640, configured to select a second target intelligent device from the multiple first intelligent devices when the first target intelligent device is upgraded, where, in the multiple first intelligent devices, the number of hops between the second target intelligent device and the first target intelligent device is the least;

the control module 650 is configured to control the first target smart device to send the first upgrade data packet to the second target smart device, so as to instruct the second target smart device to upgrade based on the first upgrade data packet.

Further, the upgrading apparatus 600 of the intelligent device further includes a third selecting module and a first upgrading module.

The third selecting module is further configured to select a third target intelligent device from the plurality of second intelligent devices, where the number of hops between the third target intelligent device and the intelligent master control device is the least among the plurality of second intelligent devices;

and the first upgrading module is used for sending the second upgrading data packet to the third target intelligent equipment so as to instruct the third target intelligent equipment to upgrade based on the second upgrading data packet.

Further, the upgrading apparatus 600 of the intelligent device further includes a fourth selecting module and a second upgrading module.

The fourth selection module is used for selecting a fourth target intelligent device from the plurality of second intelligent devices when the third target intelligent device is upgraded, wherein the number of jumping times between the fourth target intelligent device and the third target intelligent device is the least in the plurality of second intelligent devices;

and the second upgrading module is used for controlling the third target intelligent equipment to send the second upgrading data packet to the fourth target intelligent equipment so as to indicate the fourth target intelligent equipment to upgrade based on the second upgrading data packet.

Further, the upgrading apparatus 600 of the intelligent device further includes a fifth selecting module and a third upgrading module.

The second selection module is used for selecting a second target intelligent device from the plurality of first intelligent devices when the second target intelligent device is upgraded;

and the third upgrading module is used for controlling the second target intelligent equipment to send the first upgrading data packet to the fifth target intelligent equipment so as to indicate the fifth target intelligent equipment to upgrade based on the first upgrading data packet.

Further, the device type of the first smart device is different from the device type of the second smart device.

Further, the upgrading apparatus 600 of the smart device further includes a version information obtaining module and a fourth upgrading module.

The version information acquisition module is used for acquiring the version information of the first upgrading data packet and acquiring the version information of the first target intelligent equipment;

and the fourth upgrading module is used for sending the first upgrading data packet to the first target intelligent equipment when the version information of the first upgrading data packet is different from that of the first target intelligent equipment so as to indicate the first target intelligent equipment to upgrade based on the first upgrading data packet.

Optionally, the present application further provides an intelligent home system, please refer to fig. 1, where the intelligent home system includes: an intelligent master device 200 and a plurality of first intelligent devices.

An intelligent master device 200 for downloading a first upgrade data packet for a plurality of first intelligent devices from the server 100;

the intelligent main control device 200 is further configured to select a first target intelligent device from the plurality of first intelligent devices, where, in the plurality of first intelligent devices, the number of hops between the first target intelligent device and the intelligent main control device is the least;

the intelligent main control device 200 is further configured to send the first upgrade data packet to the first target intelligent device;

the first target intelligent equipment is used for upgrading based on the first upgrading data packet;

the intelligent main control device 200 is further configured to select a second target intelligent device from the plurality of first intelligent devices when the first target intelligent device is upgraded, where, in the plurality of first intelligent devices, the number of hops between the second target intelligent device and the first target intelligent device is the least;

the intelligent main control device 200 is further configured to control the first target intelligent device to send the first upgrade data packet to the second target intelligent device;

and the second target intelligent equipment is used for upgrading based on the first upgrading data packet.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses and modules may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

Referring to fig. 10, a block diagram of an electronic device 700 according to an embodiment of the present disclosure is shown. The electronic device 700 may be a smart phone, a tablet computer, an electronic book, or other electronic devices capable of running an application. The electronic device 700 in the present application may include one or more of the following components: a processor 710, a memory 720, and one or more applications, wherein the one or more applications may be stored in the memory 720 and configured to be executed by the one or more processors 710, the one or more programs configured to perform a method as described in the aforementioned method embodiments.

Processor 710 may include one or more processing cores, among other things. The processor 710 interfaces with various components throughout the electronic device 700 using various interfaces and circuitry to perform various functions of the electronic device 100 and process data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 720 and invoking data stored in the memory 720. Alternatively, the processor 710 may be implemented in hardware using at least one of Digital Signal Processing (DSP), Field-Programmable Gate Array (FPGA), and Programmable Logic Array (PLA). The processor 710 may integrate one or more of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing the content to be displayed; the modem is used to handle wireless communications. It is understood that the modem may not be integrated into the processor 710, but may be implemented by a communication chip.

The Memory 720 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). The memory 720 may be used to store instructions, programs, code sets, or instruction sets. The memory 720 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for implementing at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing various method embodiments described below, and the like. The storage data area may also store data created by the mobile terminal in use (such as a phonebook, audio-video data, chat log data), and the like.

Referring to fig. 11, a block diagram of a computer-readable storage medium according to an embodiment of the present application is shown. The computer-readable medium 800 has stored therein a program code that can be called by a processor to execute the method described in the above-described method embodiments.

The computer-readable storage medium 800 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Alternatively, the computer-readable storage medium 800 includes a non-volatile computer-readable storage medium. The computer readable storage medium 800 has storage space for program code 810 to perform any of the method steps of the method described above. The program code can be read from or written to one or more computer program products. The program code 810 may be compressed, for example, in a suitable form.

In summary, according to the upgrade method and apparatus for an intelligent device, an intelligent home system and an electronic device provided by the present invention, an intelligent main control device downloads a first upgrade data packet corresponding to a plurality of first intelligent devices from a server, selects a first intelligent device with a number of hops between the first intelligent device and the main control device as a first target intelligent device, sends the first upgrade data packet to the first target intelligent device, and selects a second target intelligent device from the plurality of first intelligent devices after the first target intelligent device is upgraded based on the first upgrade data packet, wherein, in the plurality of first intelligent devices, the number of hops between the second target intelligent device and the first target intelligent device is the minimum, and the first target intelligent device sends the first upgrade data packet to the second target intelligent device to instruct the second target intelligent device to upgrade based on the first upgrade data packet, it can be understood that the equipment with the least number of hops has the closest hop distance, and when the first intelligent equipment is upgraded, the equipment with the closest hop distance sends the first upgrade data packet, so that the updating efficiency is greatly improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (12)

1. The method for upgrading the intelligent equipment is applied to intelligent main control equipment of an intelligent home system, the intelligent home system further comprises a plurality of first intelligent equipment, and the method comprises the following steps:

downloading a first upgrade data packet for the plurality of first smart devices from a server;

selecting a first target intelligent device from the plurality of first intelligent devices, wherein the number of jumping between the first target intelligent device and the intelligent main control device is the least in the plurality of first intelligent devices;

sending the first upgrade data packet to the first target intelligent device to indicate the first target intelligent device to upgrade based on the first upgrade data packet;

when the first target intelligent equipment is upgraded, selecting second target intelligent equipment from the plurality of first intelligent equipment, wherein the number of jumping between the second target intelligent equipment and the first target intelligent equipment is the least in the plurality of first intelligent equipment;

and controlling the first target intelligent equipment to send the first upgrading data packet to the second target intelligent equipment so as to instruct the second target intelligent equipment to upgrade based on the first upgrading data packet.

2. The method according to claim 1, wherein the smart home system further includes a plurality of second smart devices, the smart master device further downloads a second upgrade data package of the plurality of second smart devices from the server, and after controlling the first target smart device to send the first upgrade data package to the second target smart device, the method further includes:

selecting a third target intelligent device from the plurality of second intelligent devices, wherein the number of jumping between the third target intelligent device and the intelligent main control device is the least in the plurality of second intelligent devices;

and sending the second upgrading data packet to the third target intelligent equipment to indicate the third target intelligent equipment to upgrade based on the second upgrading data packet.

3. The method of claim 2, wherein sending the second upgrade data package to the third target smart device to instruct the third target smart device to upgrade based on the second upgrade data package further comprises:

when the third target intelligent device is upgraded, selecting a fourth target intelligent device from the plurality of second intelligent devices, wherein the number of jumping between the fourth target intelligent device and the third target intelligent device is the least in the plurality of second intelligent devices;

and controlling the third target intelligent equipment to send the second upgrading data packet to the fourth target intelligent equipment so as to instruct the fourth target intelligent equipment to upgrade based on the second upgrading data packet.

4. The method of claim 1, wherein after the step of controlling the first target smart device to send the first upgrade data package to the second target smart device to instruct the second target smart device to upgrade based on the first upgrade data package, further comprising:

when the second target intelligent equipment is upgraded, selecting fifth target intelligent equipment from the plurality of first intelligent equipment, wherein the number of jumping between the fifth target intelligent equipment and the second target intelligent equipment is the least in the plurality of first intelligent equipment;

and controlling the second target intelligent equipment to send the first upgrading data packet to the fifth target intelligent equipment so as to instruct the fifth target intelligent equipment to upgrade based on the first upgrading data packet.

5. The method of claim 1, wherein said selecting a first target smart device from the plurality of first smart devices comprises:

when the number of the first intelligent devices with the minimum number of jumping times with the intelligent main control device in the plurality of first intelligent devices is multiple, sequentially determining the plurality of first intelligent devices with the minimum number of jumping times with the intelligent main control device as the first target intelligent device.

6. The method of claim 2, wherein the device type of the first smart device is different from the device type of the second smart device.

7. The method of claim 1, wherein prior to sending the first upgrade data package to the first target smart device to instruct the first target smart device to upgrade based on the first upgrade data package, the method further comprises:

acquiring version information of the first upgrading data packet, and acquiring version information of the first target intelligent device;

when the version information of the first upgrading data packet is different from the version information of the first target intelligent device, the first upgrading data packet is sent to the first target intelligent device so as to indicate the first target intelligent device to upgrade based on the first upgrading data packet.

8. An upgrading method of an intelligent device is applied to a first target intelligent device in a plurality of first intelligent devices, the intelligent home system further comprises an intelligent main control device, and the method comprises the following steps:

receiving a first upgrade data packet sent by the intelligent master control device and aiming at the plurality of first intelligent devices, wherein the first upgrade data packet is downloaded from the server by the intelligent master control device, and the number of jumping between the first target intelligent device and the intelligent master control device is the least in the plurality of first intelligent devices;

upgrading based on the first upgrading data packet;

after upgrading is completed, selecting second target intelligent equipment from the plurality of first intelligent equipment, wherein the number of jumping between the second target intelligent equipment and the first target intelligent equipment is the least in the plurality of first intelligent equipment;

and sending the first upgrading data packet to the second target intelligent equipment to indicate the second target intelligent equipment to upgrade based on the first upgrading data packet.

9. An upgrading device of intelligent equipment is characterized by comprising:

a download module to download a first upgrade data package for the plurality of first smart devices from a server;

a first selection module, configured to select a first target intelligent device from the multiple first intelligent devices, where, in the multiple first intelligent devices, a number of hops between the first target intelligent device and the intelligent master control device is minimum;

a sending module, configured to send the first upgrade data packet to the first target intelligent device, so as to instruct the first target intelligent device to perform upgrade based on the first upgrade data packet;

a second selecting module, configured to select a second target smart device from the multiple first smart devices when the first target smart device is upgraded, where a number of hops between the second target smart device and the first target smart device is minimum in the multiple first smart devices;

and the control module is used for controlling the first target intelligent equipment to send the first upgrading data packet to the second target intelligent equipment so as to indicate the second target intelligent equipment to upgrade based on the first upgrading data packet.

10. The utility model provides an intelligent home systems which characterized in that includes: the intelligent main control device comprises an intelligent main control device and a plurality of first intelligent devices;

the intelligent main control device is used for downloading a first upgrading data packet aiming at the plurality of first intelligent devices from a server;

the intelligent main control device is further configured to select a first target intelligent device from the plurality of first intelligent devices, where, in the plurality of first intelligent devices, the number of hops between the first target intelligent device and the intelligent main control device is the least;

the intelligent main control device is further configured to send the first upgrade data packet to the first target intelligent device;

the first target intelligent device is used for upgrading based on the first upgrading data packet;

the intelligent main control device is further configured to select a second target intelligent device from the plurality of first intelligent devices when the first target intelligent device is upgraded, wherein the number of hops between the second target intelligent device and the first target intelligent device is the least in the plurality of first intelligent devices;

the intelligent main control device is further configured to control the first target intelligent device to send the first upgrade data packet to the second target intelligent device;

and the second target intelligent equipment is used for upgrading based on the first upgrading data packet.

11. An electronic device, comprising:

one or more processors;

a memory;

one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the method of any of claims 1-7.

12. A computer-readable storage medium, having stored thereon program code that can be invoked by a processor to perform the method according to any one of claims 1 to 7.

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