TWI763249B - Method, device, system and readable storage medium of matching vehicle and battery - Google Patents

Method, device, system and readable storage medium of matching vehicle and battery Download PDF

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TWI763249B
TWI763249B TW110101231A TW110101231A TWI763249B TW I763249 B TWI763249 B TW I763249B TW 110101231 A TW110101231 A TW 110101231A TW 110101231 A TW110101231 A TW 110101231A TW I763249 B TWI763249 B TW I763249B
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battery
vehicle
matching
target
swapped
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TW110101231A
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TW202202367A (en
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葉磊
田維超
吳毅成
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大陸商武漢蔚來能源有限公司
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60LPROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
    • B60L53/00Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
    • B60L53/80Exchanging energy storage elements, e.g. removable batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/70Energy storage systems for electromobility, e.g. batteries
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/7072Electromobility specific charging systems or methods for batteries, ultracapacitors, supercapacitors or double-layer capacitors
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T90/00Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02T90/10Technologies relating to charging of electric vehicles
    • Y02T90/12Electric charging stations
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T90/00Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02T90/10Technologies relating to charging of electric vehicles
    • Y02T90/16Information or communication technologies improving the operation of electric vehicles

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Electric Propulsion And Braking For Vehicles (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)

Abstract

Method, device, system and readable storage medium of matching vehicle and battery is provided, and related to vehicle and battery matching technical field. The method for matching vehicle and battery includes: obtain the predicted results for future use behaviors of the vehicle that is ready for swapping after current swap and before the next swap; confirm the targeted matching battery for swapping to the vehicle among the matching batteries in the targeted swapping station according to the predicted results. The disclosure of the embodiments will solve the problems to a certain extent that current swapping strategy in the prior art deduces great difference of capacity among batteries of the swapping station and influent the battery managing efficacy.

Description

車輛與電池的匹配方法、裝置、系統及可讀存儲介質 Vehicle and battery matching method, device, system and readable storage medium

本發明涉及車輛與電池的匹配技術領域,尤其涉及一種車輛與電池的匹配方法、裝置、系統及可讀存儲介質。 The present invention relates to the technical field of vehicle-battery matching, and in particular, to a vehicle-battery matching method, device, system and readable storage medium.

隨著不可再生能源(如石油)的日益減少以及環境改善的迫切需求,新能源車輛應運而生,例如,以動力電池為動力的電動車輛(如純電動車輛、機電混合動力車輛、燃料電池車輛等),已越來越多地投入到人們的生活之中。 With the increasing reduction of non-renewable energy (such as petroleum) and the urgent need for environmental improvement, new energy vehicles emerge as the times require, for example, electric vehicles powered by power batteries (such as pure electric vehicles, electromechanical hybrid vehicles, fuel cell vehicles) etc.), has been increasingly put into people's lives.

對於電動車輛,如何在電能不足時提供快速有效的解決辦法,成為用戶和生產商著重關注的問題。目前主要的電能補給方案包括:充電方案和換電方案。對於充電方案,可以將與電源連接的充電槍,與車輛的充電接口連接,對車輛上的動力電池進行充電,這一過程耗時較長。對於換電方案,則是直接用已充滿電的動力電池對車輛上虧電的動力電池進行更換,這一過程耗時較短。由此可見,換電方案相對充電方案,可以在更短的時間內解決電能不足的問題,因此也更受用戶和生產商的青睞。 For electric vehicles, how to provide a fast and effective solution when the power is insufficient has become a major concern of users and manufacturers. At present, the main power supply schemes include: charging scheme and power exchange scheme. For the charging solution, the charging gun connected to the power supply can be connected to the charging interface of the vehicle to charge the power battery on the vehicle, which takes a long time. For the battery replacement solution, the power battery that is running low on the vehicle is directly replaced with a fully charged power battery, which takes less time. It can be seen that, compared with the charging solution, the power exchange solution can solve the problem of insufficient power in a shorter time, so it is more favored by users and manufacturers.

對於換電方案,通常是由提供電池運營服務的換電站實現,使動力電池在車輛中進行流轉調度。如圖1所示,動力電池存放在換電站內的電池倉位中,而車輛在換電平臺處實現換電。但現有技術中,換電站在進行換電時, 電池是隨機選擇的,這樣可能會導致有的電池被過度使用,有的電池則使用頻率太低,從而導致換電站內的電池的性能參差不齊,同時這也可能影響用戶的使用體驗,用戶在使用到性能較差的電池的情況下,影響用戶對換電站的評價,進而以後放棄在該換電站進行換電,影響電池的運營效率。 For the power exchange scheme, it is usually realized by a power exchange station that provides battery operation services, so that the power battery can be transferred and dispatched in the vehicle. As shown in Figure 1, the power battery is stored in the battery compartment in the battery swap station, and the vehicle is swapped at the battery swap platform. However, in the prior art, when the power exchange station performs power exchange, The batteries are randomly selected, which may cause some batteries to be overused and some batteries to be used too infrequently, resulting in uneven performance of the batteries in the swap station, and this may also affect the user's experience. In the case of using a battery with poor performance, it will affect the user's evaluation of the power exchange station, and then abandon the power exchange at the power exchange station in the future, which will affect the operating efficiency of the battery.

本發明提供了一種車輛與電池的匹配方法、裝置、系統及可讀存儲介質,以便在一定程度上解決現有技術中的換電策略,導致換電站內的電池的性能差異較大,且影響電池運營效率的問題。 The present invention provides a method, device, system and readable storage medium for matching a vehicle and a battery, so as to solve the power exchange strategy in the prior art to a certain extent, resulting in a large difference in the performance of the batteries in the power exchange station, and affecting the battery operational efficiency issues.

在本發明實施的第一方面,提供了一種車輛與電池的匹配方法,所述車輛與電池的匹配方法包括:獲取待換電車輛在本次換電後至下一次換電時的未來使用行為的預測結果;根據所述預測結果,在所述目標換電站內的匹配電池中,確定更換至所述待換電車輛上的目標匹配電池。 In a first aspect of the implementation of the present invention, a method for matching a vehicle and a battery is provided, and the method for matching a vehicle and a battery includes: acquiring the future usage behavior of the vehicle to be swapped from the current power swap to the next power swap The prediction result; according to the prediction result, among the matching batteries in the target swapping station, determine the target matching battery to be replaced on the vehicle to be swapped.

可選地,所述根據所述預測結果,在目標換電站內的匹配電池中,確定更換至所述待換電車輛上的目標匹配電池,包括:根據所述預測結果,評估所述目標換電站內的每一匹配電池的目標參數的變化量;其中,所述目標參數的變化量為:若所述匹配電池本次換電至所述待換電車輛上,所述匹配電池的目標參數在所述待換電車輛下一次換電時相比於本次換電時的變化量;根據所述目標參數的變化量,在所述目標換電站內的匹配電池中,確定更換至所述待換電車輛上的目標匹配電池。 Optionally, according to the prediction result, in the matching battery in the target battery swap station, determining the target matching battery to be replaced on the vehicle to be swapped includes: evaluating the target battery replacement according to the prediction result. The variation of the target parameter of each matching battery in the power station; wherein, the variation of the target parameter is: if the matching battery is replaced to the vehicle to be replaced this time, the target parameter of the matching battery The amount of change in the next power exchange of the vehicle to be power-swapped compared to the current power-swap; according to the change of the target parameter, in the matching battery in the target power-swapping station, it is determined to replace to the The target on the vehicle to be swapped matches the battery.

可選地,所述目標參數包括:電池隱患可探測程度、電池健康度衰減程度以及電池健康度衰減速率中的至少一種。 Optionally, the target parameter includes at least one of: a detectable degree of battery hidden danger, a degree of battery health decay, and a rate of battery health decay.

可選地,所述根據所述目標參數的變化量,在所述目標換電站內的所述匹配電池中,確定更換至所述待換電車輛上的目標匹配電池,包括:根據所述目標參數的變化量,對所述目標換電站內的每一所述匹配電池進行排序;根據所述匹配電池的排序順序,確定所述目標匹配電池。 Optionally, according to the change of the target parameter, in the matching battery in the target battery swap station, determining the target matching battery to be replaced on the to-be-swapped vehicle includes: according to the target battery Sort each of the matching batteries in the target battery swapping station according to the variation of the parameter; determine the target matching battery according to the sorting order of the matching batteries.

可選地,在所述獲取待換電車輛在本次換電後至下一次換電時的未來使用行為的預測結果之前,所述車輛與電池的匹配方法還包括:根據所述待換電車輛的歷史使用行為數據以及當前的位置信息,對所述待換電車輛在本次換電後至下一次換電時的未來使用行為進行預測,獲得所述預測結果。 Optionally, before obtaining the prediction result of the future usage behavior of the vehicle to be swapped after the current swap to the next swap, the method for matching the vehicle and the battery further includes: according to the to-be-swapped battery The historical usage behavior data and current location information of the vehicle are used to predict the future usage behavior of the vehicle to be battery swapped from the current battery swap to the next battery swap, and the prediction result is obtained.

可選地,所述未來使用行為包括:下一次換電的時間和地點,本次換電後至下一次換電前在對動力電池的使用上所需的累計續航里程以及累計吞吐電量,以及本次換電後至下一次換電前的充電行為、行駛行為、停車行為。 Optionally, the future usage behavior includes: the time and place of the next power exchange, the accumulated cruising range and accumulated throughput power required for the use of the power battery after the current power exchange and before the next power exchange, and The charging behavior, driving behavior, and parking behavior after the current power exchange and before the next power exchange.

可選地,所述目標換電站為所述待換電車輛當前所在的換電站,或所述待換電車輛的當前位置的預設範圍內的換電站。 Optionally, the target swapping station is a swapping station where the vehicle to be swapped is currently located, or a swapping station within a preset range of the current position of the vehicle to be swapped.

可選地,在所述目標換電站為所述待換電車輛的當前位置的預設範圍內的換電站的情況下,在確定更換至所述待換電車輛上的目標匹配電池之後,所述車輛與電池的匹配方法還包括:發送推薦信息至目標終端設備;其中,所述推薦信息包括:所述目標匹配電池所在的換電站名稱以及地理位置。 Optionally, in the case that the target battery swapping station is a battery swapping station within a preset range of the current position of the vehicle to be battery swapped, after it is determined to replace the target matching battery on the vehicle to be battery swapped, the The method for matching a vehicle and a battery further includes: sending recommendation information to a target terminal device; wherein, the recommendation information includes: the name and geographic location of the swap station where the target-matched battery is located.

在本發明實施的第二方面,提供了一種車輛與電池的匹配裝置,所述車輛與電池的匹配裝置包括:獲取模塊,用於獲取待換電車輛在本次換電後至下一次換電時的未來使用行為的預測結果;確定模塊,用於根據所述確定模塊得到的所述預測結果,在所述目標換電站內的匹配電池中,確定更換至所述待換電車輛上的目標匹配電池。 In a second aspect of the implementation of the present invention, there is provided a vehicle-battery matching device, the vehicle-battery matching device comprising: an acquisition module for acquiring the vehicle to be swapped after the current battery swap to the next battery swap The prediction result of the future usage behavior at the time of use; the determination module is configured to determine, according to the prediction result obtained by the determination module, in the matching battery in the target battery swap station, the target to be replaced on the vehicle to be battery swapped Match the battery.

可選地,所述確定模塊包括:評估單元,用於根據所述預測結果,評估所述目標換電站內的每一匹配電池的目標參數的變化量;其中,所述目標參數的變化量為:若所述匹配電池本次換電至所述待換電車輛上,所述匹配電池的目標參數在所述待換電車輛下一次換電時相比於本次換電時的變化量;確定單元,用於根據所述目標參數的變化量,在所述目標換電站內的匹配電池中,確定更換至所述待換電車輛上的目標匹配電池。 Optionally, the determination module includes: an evaluation unit, configured to evaluate, according to the prediction result, the change amount of the target parameter of each matched battery in the target battery swap station; wherein the change amount of the target parameter is : if the matching battery is exchanged to the vehicle to be exchanged this time, the amount of change in the target parameter of the matching battery when the vehicle to be exchanged is replaced next time compared to the current time of power exchange; and a determining unit, configured to, according to the variation of the target parameter, determine, among the matching batteries in the target battery swapping station, a target matching battery to be replaced on the vehicle to be battery swapped.

可選地,所述目標參數包括:電池隱患可探測程度、電池健康度衰減程度以及電池健康度衰減速率中的至少一種。 Optionally, the target parameter includes at least one of: a detectable degree of battery hidden danger, a degree of battery health decay, and a rate of battery health decay.

可選地,所述確定單元包括:排序子單元,用於根據所述目標參數的變化量,對所述目標換電站內的每一所述匹配電池進行排序;確定子單元,用於根據所述排序子單元對所述匹配電池的排序順序,確定所述目標匹配電池。 Optionally, the determining unit includes: a sorting subunit, configured to sort each of the matched batteries in the target battery swapping station according to the variation of the target parameter; a determining subunit, configured to The sorting order of the matching batteries by the sorting subunit determines the target matching battery.

可選地,所述車輛與電池的匹配裝置還包括:預測模塊,用於根據所述待換電車輛的歷史使用行為數據以及當前的位置信息,對所述待換電車輛在本次換電後至下一次換電時的未來使用行為進行預測,獲得所述預測結果。 Optionally, the vehicle-battery matching device further includes: a prediction module, configured to, according to the historical usage behavior data and current location information of the vehicle to be battery-swapped, perform the battery-swapping process on the vehicle to be swapped this time. Predict the future usage behavior until the next time the battery is replaced, and obtain the prediction result.

可選地,所述未來使用行為包括:下一次換電的時間和地點,本次換電後至下一次換電前在對動力電池的使用上所需的累計續航里程以及累計吞吐電量,以及本次換電後至下一次換電前的充電行為、行駛行為、停車行為。 Optionally, the future usage behavior includes: the time and place of the next power exchange, the accumulated cruising range and accumulated throughput power required for the use of the power battery after the current power exchange and before the next power exchange, and The charging behavior, driving behavior, and parking behavior after the current power exchange and before the next power exchange.

可選地,所述目標換電站為所述待換電車輛當前所在的換電站,或所述待換電車輛的當前位置的預設範圍內的換電站。 Optionally, the target swapping station is a swapping station where the vehicle to be swapped is currently located, or a swapping station within a preset range of the current position of the vehicle to be swapped.

可選地,在所述目標換電站為所述待換電車輛的當前位置的預設範圍內的換電站的情況下,所述車輛與電池的匹配裝置還包括:發送模塊,用於發送推薦信息至目標終端設備;其中,所述推薦信息包括:所述目標匹配電池所在的換電站名稱以及地理位置。 Optionally, when the target swapping station is a swapping station within a preset range of the current position of the vehicle to be swapped, the vehicle-battery matching device further includes: a sending module configured to send a recommendation information to the target terminal device; wherein, the recommendation information includes: the name and geographic location of the swap station where the target matched battery is located.

在本發明實施例的第三方面,提供了一種車輛與電池的匹配系統,包括:存儲器和處理器,所述存儲器存儲有計算機程序,所述計算機程序被所述處理器執行時實現如第一方面所述的車輛與電池的匹配方法中的步驟。 In a third aspect of the embodiments of the present invention, a vehicle-battery matching system is provided, including: a memory and a processor, where the memory stores a computer program, and when the computer program is executed by the processor, the first The steps in the matching method of the vehicle and the battery described in the aspect.

在本發明實施例的第四方面,提供了一種計算機可讀存儲介質,其上存儲有計算機程序,所述計算機程序被處理器執行時實現如第一方面所述的車輛與電池的匹配方法中的步驟。 In a fourth aspect of the embodiments of the present invention, there is provided a computer-readable storage medium on which a computer program is stored, and when the computer program is executed by a processor, the method for matching a vehicle and a battery as described in the first aspect is implemented. A step of.

針對現有技術,本發明具備如下優點: For the prior art, the present invention has the following advantages:

本發明實施例中,對車輛進行換電前,根據預測得到的車輛的未來使用行為,在目標換電站內確定更換至車輛上的動力電池。車輛不同的使用行為,對動力電池的性能影響不同,因此,可以根據車輛的未來使用行為,選擇將動力電池更換至有利於優化其性能的車輛上,從而使動力電池得到更好的使用,這樣有利於減小換電站內的動力電池在性能上的差異,均衡換電站內的動力電池的性能。換電站內的動力電池的性能越均衡,也越有利於用戶使用到 性能更優的動力電池,改善用戶的使用體驗,提高用戶的回頭率,進而提升電池的運營效率。 In the embodiment of the present invention, before the vehicle is replaced, the power battery to be replaced on the vehicle is determined in the target battery swap station according to the predicted future use behavior of the vehicle. Different usage behaviors of vehicles have different effects on the performance of the power battery. Therefore, according to the future use behavior of the vehicle, you can choose to replace the power battery with a vehicle that is conducive to optimizing its performance, so that the power battery can be used better. It is beneficial to reduce the performance difference of the power batteries in the swap station, and balance the performance of the power batteries in the swap station. The more balanced the performance of the power battery in the swap station, the more beneficial it is for users to use The power battery with better performance can improve the user's experience, increase the user's return rate, and then improve the operating efficiency of the battery.

上述說明僅是本發明技術方案的概述,為了能夠更清楚瞭解本發明的技術手段,而可依照說明書的內容予以實施,並且為了讓本發明的上述和其它目的、特徵和優點能夠更明顯易懂,以下特舉本發明的具體實施方式。 The above description is only an overview of the technical solutions of the present invention, in order to be able to understand the technical means of the present invention more clearly, it can be implemented according to the content of the description, and in order to make the above and other purposes, features and advantages of the present invention more obvious and easy to understand , the following specific embodiments of the present invention are given.

201:獲取待換電車輛本次換電後至下一次換電時的未來使用行為的預測結果 201: Obtain the prediction result of the future usage behavior of the vehicle to be replaced after the current battery replacement to the next battery replacement

202:根據預設結果,在目標換電站內的匹配電池中確定更換至待換電車輛上的目標匹配電池 202: According to the preset result, determine the target matching battery to be replaced on the vehicle to be swapped in the matching batteries in the target swapping station

300:車輛與電池的匹配裝置 300: Matching device for vehicle and battery

301:獲取模塊 301: Get module

302:確定模塊 302: Determine the module

3021:評估單元 3021: Evaluation Unit

3022:確定單元 3022: Determine unit

30221:排序子單元 30221: Sort subunits

30222:排序子單元 30222: Sort subunits

304:發送模塊 304: Send module

為了更清楚地說明本發明實施例或現有技術中的技術方案,下面將對實施例描述中所需要使用的附圖作簡單地介紹。 In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following briefly introduces the accompanying drawings used in the description of the embodiments.

圖1為現有技術的換電站的結構示意圖;圖2為本發明實施例提供的車輛與電池的匹配方法的流程示意圖;圖3為本發明實施例提供的車輛與電池的匹配裝置的框圖之一;圖4為本發明實施例提供的車輛與電池的匹配裝置的框圖之二。 1 is a schematic structural diagram of a power swap station in the prior art; FIG. 2 is a schematic flowchart of a method for matching a vehicle and a battery provided by an embodiment of the present invention; FIG. 3 is a block diagram of a matching device for a vehicle and a battery provided by an embodiment of the present invention. 1. FIG. 4 is the second block diagram of the apparatus for matching a vehicle and a battery provided by an embodiment of the present invention.

下面將參照附圖更詳細地描述本發明的示例性實施例。雖然附圖中顯示了本發明的示例性實施例,然而應當理解的是,還可以以各種形式實現本發明而不應被這裡闡述的實施例所限制。相反,提供這些實施例是為了能夠更透徹地理解本發明,並且能夠將本發明的範圍完整的傳達給本領域的技術人員。 Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present invention are shown in the drawings, it should be understood that the present invention may also be embodied in various forms and should not be limited by the embodiments set forth herein. Rather, these embodiments are provided so that the present invention will be more thoroughly understood, and will fully convey the scope of the present invention to those skilled in the art.

圖2是本發明實施例提供的一種車輛與電池的匹配方法的流程示意圖,該車輛與電池的匹配方法可以應用於服務器,也可以應用於其他電子設備(如換電站內的終端設備)等。 2 is a schematic flowchart of a method for matching a vehicle and a battery according to an embodiment of the present invention. The method for matching a vehicle and a battery can be applied to a server or other electronic equipment (such as terminal equipment in a power exchange station).

如圖2所示,該車輛與電池的匹配方法可以包括: As shown in Figure 2, the method for matching the vehicle and the battery may include:

步驟201:獲取待換電車輛本次換電後至下一次換電時的未來使用行為的預測結果。 Step 201 : Obtain a prediction result of the future usage behavior of the vehicle to be replaced after the current battery replacement to the next battery replacement.

本步驟中所述的待換電車輛為以動力電池為動力的電動車輛,其類型可以包括但不限於:純電動車輛、機電混合動力車輛、燃料電池車輛等。 The vehicle to be replaced in this step is an electric vehicle powered by a power battery, and its types may include but are not limited to: pure electric vehicle, electromechanical hybrid vehicle, fuel cell vehicle, and the like.

本步驟中所述的未來使用行為包括能夠對動力電池的性能產生影響的行為。 The future usage behaviors described in this step include behaviors that can affect the performance of the power battery.

步驟202:根據預測結果,在目標換電站內的匹配電池中,確定更換至待換電車輛上的目標匹配電池。 Step 202 : According to the prediction result, among the matching batteries in the target swapping station, determine the target matching battery to be replaced on the vehicle to be swapped.

這裡所述的匹配電池為與待換電車輛匹配的動力電池。目前許多車型已經支持靈活裝配不同型號和規格的電池,但也並非支持所有型號和規格的電池,因此,需要確定與待換電車輛匹配的動力電池,具體可以根據待換電車輛的產品型號等信息進行確定。 The matching battery described here is a power battery matching the vehicle to be swapped. At present, many models already support the flexible assembly of batteries of different types and specifications, but not all types and specifications of batteries. Therefore, it is necessary to determine the power battery that matches the vehicle to be replaced, which can be determined according to the product model of the vehicle to be replaced. information to be determined.

在通過步驟101得到待換電車輛的未來使用行為的預測結果後,本步驟根據該預測結果,在目標換電站內的匹配電池中,確定本次換電更換至待換電車輛上的目標匹配電池。 After obtaining the prediction result of the future use behavior of the vehicle to be swapped through step 101, this step determines the target matching of the current swap to the vehicle to be swapped in the matching battery in the target swap station according to the prediction result. Battery.

本發明實施例中,對車輛進行換電前,根據車輛的未來使用行為的預測結果,在目標換電站內確定更換至車輛上的動力電池。車輛不同的使用行為,對動力電池的性能影響不同,例如,好的使用行為可以延長動力電池的使用壽命,提高動力電池的性能;不好的使用行為則可以縮短動力電池的使用壽命,降低動力電池的性能,由此可知,車輛的未來使用行為會影響動力電池的性能,因此,可以根據車輛的未來使用行為,選擇將動力電池更換至有利於優化其性能的車輛上,從而使動力電池得到更好的使用,這樣有利於減小換電站內的動力電池在性能上的差異,均衡換電站內的動力電池的性能。換電站內的動力電池的性能越均衡,也越有利於平衡電池運行應力,以及有利於用戶使 用到性能更優的動力電池,改善用戶的使用體驗,提高用戶的回頭率,進而提升電池的運營效率。 In the embodiment of the present invention, before the vehicle is replaced, the power battery to be replaced on the vehicle is determined in the target battery swap station according to the prediction result of the future use behavior of the vehicle. Different use behaviors of vehicles have different effects on the performance of power batteries. For example, good use behaviors can prolong the service life of power batteries and improve the performance of power batteries; bad use behaviors can shorten the service life of power batteries and reduce power. The performance of the battery, it can be seen that the future use behavior of the vehicle will affect the performance of the power battery. Therefore, according to the future use behavior of the vehicle, you can choose to replace the power battery with a vehicle that is conducive to optimizing its performance, so that the power battery can be obtained. Better use, which is conducive to reducing the performance difference of the power batteries in the swap station and balancing the performance of the power batteries in the swap station. The more balanced the performance of the power battery in the power exchange station, the more conducive to balancing the operating stress of the battery, and to the user's use of the battery. Use a power battery with better performance to improve the user experience, increase the user's return rate, and then improve the operating efficiency of the battery.

可選地,在本發明實施例提供的技術方案應用於服務器時,在確定目標匹配電池後,服務器可以發送至車電匹配信息至換電站,以使換電站中的換電設備(如換電機器人)或工作人員可以將目標匹配電池更換至待換電車輛上。其中,車電匹配信息中可以包括:待換電車輛信息(如車牌號、車輛顏色、車輛型號等)以及目標匹配電池信息(如電池編號信息),以使換電站的換電設備得知是將哪一電池更換至哪一待換電車輛上。 Optionally, when the technical solution provided by the embodiment of the present invention is applied to the server, after determining the target matching battery, the server may send the vehicle power matching information to the power exchange station, so that the power exchange equipment in the power exchange station (such as power exchange Robots) or staff can replace the target-matched battery on the vehicle to be swapped. The vehicle power matching information may include: vehicle information to be replaced (such as license plate number, vehicle color, vehicle model, etc.) and target matching battery information (such as battery number information), so that the power exchange equipment at the power exchange station knows whether it is Which battery to replace on which vehicle to be swapped.

可選地,步驟102:根據預測結果,在目標換電站內的匹配電池中,確定更換至待換電車輛上的目標匹配電池,可以包括: Optionally, step 102: According to the prediction result, among the matching batteries in the target battery swap station, determine the target matching battery to be replaced on the vehicle to be swapped, which may include:

根據預測結果,評估目標換電站內的每一匹配電池的目標參數的變化量;根據目標參數的變化量,在目標換電站內的匹配電池中,確定更換至待換電車輛上的目標匹配電池。 According to the prediction result, the variation of the target parameters of each matching battery in the target battery swap station is evaluated; according to the variation of the target parameters, among the matching batteries in the target battery swap station, the target matching battery to be replaced on the vehicle to be swapped is determined. .

這裡所述的目標參數的變化量為:若匹配電池本次換電至待換電車輛上,該匹配電池的目標參數在待換電車輛下一次換電時相比於本次換電時的變化量。 The variation of the target parameter described here is: if the matching battery is replaced on the vehicle to be replaced this time, the target parameter of the matching battery when the vehicle to be replaced is replaced next time is compared with the current time when the battery is replaced. amount of change.

由於待換電車輛的使用行為會對動力電池的一些性能參數(即目標參數)產生影響,因此,對於目標換電站內的每一與待換電車輛匹配的動力電池,可以基於待換電車輛的未來使用行為,評估其若本次換電至待換電車輛上後,該待換電車輛的未來使用行為對其目標參數的影響,即可能使目標參數產生的變化。然後根據評估結果(即得到的目標參數的變化量),在目標換電站內的匹配電池中,確定本次換電更換至待換電車輛上的目標匹配電池。由於性能參數與動力電池的性能直接相關,因此,評估待換電車輛的未來使用行為,可能使動力電池的目標參數產生的變化量,可以更好地確定待換電車輛的未來 使用行為對動力電池的性能的影響,從而選擇合適的動力電池更換至待換電車輛上。 Since the use behavior of the vehicle to be swapped will affect some performance parameters (ie, target parameters) of the power battery, for each power battery in the target swap station that matches the vehicle to be swapped, it can be determined based on the vehicle to be swapped. If the future usage behavior of the vehicle to be replaced is evaluated this time, the impact of the future usage behavior of the vehicle to be replaced on its target parameters may cause changes in the target parameters. Then, according to the evaluation result (that is, the obtained variation of the target parameter), in the matching battery in the target battery swap station, determine the target matching battery to be replaced on the vehicle to be battery swapped this time. Since the performance parameters are directly related to the performance of the power battery, evaluating the future use behavior of the vehicle to be replaced may result in changes in the target parameters of the power battery, which can better determine the future of the vehicle to be replaced. The influence of the use behavior on the performance of the power battery, so as to select the appropriate power battery to be replaced on the vehicle to be replaced.

可選地,前述目標參數可以包括:電池隱患可探測程度、電池健康度衰減程度以及電池健康度衰減速率中的至少一種。下面針對這裡所述的三種參數,就如何根據待換電車輛的未來使用行為的預測結果,評估目標參數的變化量,進行進一步的解釋說明。 Optionally, the aforementioned target parameter may include at least one of: a detectable degree of battery hidden danger, a degree of battery health decay, and a rate of battery health decay. With respect to the three parameters described here, further explanations will be given on how to evaluate the change amount of the target parameter according to the prediction result of the future usage behavior of the vehicle to be swapped.

對於電池隱患可探測程度:可以根據待換電車輛的未來使用行為,預測每一匹配電池在第二狀態下的第二累計工況類型;然後根據每一匹配電池的第二累計工況類型,評估得到每一匹配電池在第二狀態下的第二電池隱患可探測程度;最後,將第二電池隱患可探測程度減去第二電池隱患可探測程度得到的差值,作為每一匹配電池在第二狀態下相比於第一狀態下的電池隱患可探測程度的變化量。 For the detectable degree of battery hidden danger: the second cumulative operating condition type of each matched battery in the second state can be predicted according to the future use behavior of the vehicle to be replaced; then, according to the second cumulative operating condition type of each matched battery, Evaluate to obtain the detectable degree of the hidden danger of the second battery in the second state of each matching battery; finally, the difference obtained by subtracting the detectable degree of the hidden danger of the second battery from the detectable degree of the hidden danger of the second battery is taken as the The amount of change in the detectable extent of the battery hazard in the second state compared to the first state.

這裡所述的第一狀態為匹配電池的當前狀態,這裡所述的第二狀態為若匹配電池本次換電至待換電車輛上,匹配電池在待換電車輛下一次換電時的狀態。 The first state described here is the current state of the matching battery, and the second state described here is the state of the matching battery when the matching battery is to be replaced next time if the matching battery is swapped to the vehicle to be swapped this time. .

車輛的不同使用行為,對應動力電池不同的使用工況。而在動力電池不同的使用工況下,可以探測動力電池的不同故障。例如,在進行直流快充行為的情況下,可以探測a、b、c三種故障,在進行交流慢充行為的情況下,可以探測x、y、z三種故障。車輛的使用行為越多,動力電池的電池隱患可探測程度越高。假設一塊動力電池一直採用交流慢充的方式進行充電,則無法探測a、b、c三種故障,而若待換電車輛的未來使用行為包括採用直流快充的方式進行充電,則該動力電池安裝於該待換電車輛上,可能會提高該動力電池的隱患可探測程度。由此可見,車輛的未來使用行為可能會對動力電池的隱患可探測程度產生影響。 The different usage behavior of the vehicle corresponds to the different usage conditions of the power battery. Under different operating conditions of the power battery, different faults of the power battery can be detected. For example, in the case of DC fast charging, three faults a, b, and c can be detected, and in the case of AC slow charging, three faults x, y, and z can be detected. The more the vehicle is used, the higher the detection degree of the battery hidden danger of the power battery. Assuming that a power battery is always charged by AC slow charging, the three faults a, b, and c cannot be detected. If the future use behavior of the vehicle to be replaced includes charging by DC fast charging, the power battery is installed. On the vehicle to be swapped, the detectability of the hidden danger of the power battery may be improved. It can be seen that the future use behavior of the vehicle may have an impact on the detectability of the hidden dangers of the power battery.

對於電池健康度衰減程度以及電池健康度衰減速率:可以根據預測結果,獲得每一匹配電池由第一狀態至第二狀態時的第一累計使用情況;然後根據第一累計使用情況和每一匹配電池在第一狀態下的第二累計使用情況,確定每一匹配電池從出廠至第二狀態時的第三累計使用情況;再然後根據第三累計使用情況,評估每一匹配電池的在第二狀態下的第二健康度;最後,根據匹配電池在第一狀態下的第一健康度和在第二狀態下的第二健康度,可以計算得到每一匹配電池在第二狀態下相比於第一狀態下的電池健康度衰減程度的變化量以及電池健康度衰減速率的變化量。其中,匹配電池在第一狀態下的第一累計使用情況為匹配電池從出廠到當前的累計使用情況。 For the battery health decay degree and the battery health decay rate: according to the prediction result, the first cumulative usage of each matching battery from the first state to the second state can be obtained; then according to the first cumulative usage and each matching battery The second cumulative usage of the battery in the first state is to determine the third cumulative usage of each matching battery from the factory to the second state; and then according to the third cumulative usage, the The second health degree in the state; finally, according to the first health degree of the matching battery in the first state and the second health degree in the second state, it can be calculated that each matching battery in the second state is compared to The change amount of the battery health decay degree and the change amount of the battery health decay rate in the first state. The first cumulative usage of the matching battery in the first state is the cumulative usage of the matching battery from the factory to the current.

例如,第一健康度表示為SOH_t0,第一健康度衰減速率表示為SOH_rate_t0,則SOH_rate_t0=(100%-SOH_t0)/l0。其中,l0為匹配電池從出廠到當前時間的日歷時長(即總天數)。第二健康度表示為SOH_t1,第二健康度衰減速率表示為SOH_rate_t1,則SOH_rate_t1=(100%-SOH_t1)/l1,其中,l1為匹配電池從出廠到待換電車輛下一次換電時的日歷時長(即總天數)。則匹配電池在第二狀態下相比於第一狀態下的電池健康度衰減程度的變化量為:SOH_t1-SOH_t0,匹配電池在第二狀態下相比於第一狀態下的電池健康度衰減速率的變化量為:SOH_rate_t1-SOH_rate_t0。 For example, the first health degree is represented as SOH_t0, and the first health degree decay rate is represented as SOH_rate_t0, then SOH_rate_t0=(100%-SOH_t0)/l0. Among them, l0 is the calendar duration (that is, the total number of days) of the matching battery from the factory to the current time. The second degree of health is represented by SOH_t1, and the decay rate of the second degree of health is represented by SOH_rate_t1, then SOH_rate_t1=(100%-SOH_t1)/l1, where l1 is the day of the matching battery from the factory to the next time the vehicle to be replaced is replaced. Duration (i.e. total number of days). Then the variation of the battery health attenuation degree of the matching battery in the second state compared with the first state is: SOH_t1-SOH_t0, the battery health attenuation rate of the matching battery in the second state compared with the first state The amount of change is: SOH_rate_t1-SOH_rate_t0.

對於動力電池的健康度(State of Health,簡稱SOH),一般動力電池在出廠時的健康度為100%,隨著後續的使用,其健康度會逐漸衰減。健康度的衰減程度和衰減速率,影響動力電池的服役時間。對動力電池具有良好使用習慣,可以延緩健康度的衰減程度,減小健康度的衰減速率,延長電池的服役時間;反之,則會加速健康度的衰減程度,增大健康度的衰減速率,提前結束電池的服役時間。由此可見,車輛的未來使用行為也可能會對動力電池的健康度衰減程度以及健康度衰減速率產生影響。 For the State of Health (SOH) of the power battery, the general health of the power battery is 100% when it leaves the factory, and its health will gradually decay with subsequent use. The decay degree and decay rate of the health degree affect the service time of the power battery. Having a good habit of using the power battery can delay the decay of health, reduce the decay rate of health, and prolong the service time of the battery; otherwise, it will accelerate the decay of health, increase the decay rate of health, and advance End battery life. It can be seen that the future use behavior of the vehicle may also have an impact on the degree of health decay and the rate of health decay of the power battery.

可選地,前述步驟:根據目標參數的變化量,在目標換電站內的匹配電池中,確定更換至待換電車輛上的目標匹配電池,可以包括:根據目標參數的變化量,對目標換電站內的每一匹配電池進行排序;根據匹配電池的排序順序,確定目標匹配電池。 Optionally, the aforementioned step: according to the change of the target parameter, in the matching battery in the target battery swap station, determining the target matching battery to be replaced on the vehicle to be swapped may include: according to the change of the target parameter, changing the target battery. Each matching battery in the power station is sorted; according to the sorting order of the matching battery, the target matching battery is determined.

依據目標參數的變化量對匹配電池進行排序,可以提升匹配電池信息的有序性,從而更好地從匹配電池中選擇所需的目標匹配電池。 Sorting the matching batteries according to the variation of the target parameters can improve the ordering of the matching battery information, so as to better select the required target matching batteries from the matching batteries.

其中,目標參數的變化量具有正負之分,不同的參數,變化量的正負意義不同。 Among them, the variation of the target parameter has positive and negative points. Different parameters have different positive and negative meanings of the variation.

例如,對於電池隱患可探測程度而言,變化量為正數,說明可探測程度提高,性能更優;變化量為負數,說明可探測程度降低,性能變差。在目標參數只包括電池隱患可探測程度的情況下,可以按照隱患可探測程度的變化量由大到小的順序進行排序。對於排在第一位的匹配電池,說明該匹配電池換電至待換電車輛後,其隱患可探測程度的變化量最大,可以豐富該電池運行工況的多樣性,提升電池隱患預先識別率,因此可將該匹配電池確定為目標匹配電池,以最大限度的調整匹配電池的隱患可探測程度,從而更好的識別電池故障。當然可以理解的是,也可以選擇排在其他位的匹配電池作為目標匹配電池,具體情況可根據實際需求選擇。 For example, for the detectability of battery hidden dangers, a positive change indicates that the detectability is improved and the performance is better; a negative change indicates that the detectability decreases and the performance deteriorates. In the case that the target parameter only includes the detectable degree of the hidden danger of the battery, it can be sorted according to the change of the detectable degree of the hidden danger from large to small. For the matching battery ranked first, it means that after the matching battery is replaced to the vehicle to be replaced, the change in the detectable degree of hidden dangers is the largest, which can enrich the diversity of operating conditions of the battery and improve the pre-identification rate of battery hidden dangers. , so the matching battery can be determined as the target matching battery, so as to adjust the hidden danger detectable degree of the matching battery to the maximum extent, so as to better identify the battery failure. Of course, it can be understood that matching batteries in other positions can also be selected as target matching batteries, and the specific situation can be selected according to actual needs.

再例如,對於電池健康度衰減速率而言,變化量為正數,說明電池健康度衰減速率增大,性能變差;變化量為負數,說明電池健康度衰減速率減小,性能更優。在目標參數只包括電池健康度衰減速率的情況下,可以按照健康度衰減速率的變化量由小到大的順序進行排序。對於排在第一位的匹配電池,說明該匹配電池換電至待換電車輛後,其健康度衰減速率的變化量最小,因此可將該匹配電池確定為目標匹配電池,以最大限度的減小匹配電池的健康度衰減速率,從而更好的延緩電池衰減,延長電池的使用壽命,提升電池全生 命週期的使用效率。當然可以理解的是,也可以選擇排在其他位的匹配電池作為目標匹配電池,具體情況可根據實際需求選擇。 For another example, for the battery health decay rate, a positive change indicates that the battery health decay rate increases and the performance deteriorates; a negative change indicates that the battery health decay rate decreases and the performance is better. In the case that the target parameter only includes the battery health decay rate, it can be sorted in descending order of the change amount of the health decay rate. For the matching battery in the first place, it means that after the matching battery is replaced to the vehicle to be replaced, the change in the decay rate of its health is the smallest, so the matching battery can be determined as the target matching battery to minimize the reduction Small match the battery's health decay rate, so as to better delay battery decay, prolong battery life, and improve battery life Efficiency of life cycle usage. Of course, it can be understood that matching batteries in other positions can also be selected as target matching batteries, and the specific situation can be selected according to actual needs.

在目標參數包括電池隱患可探測程度、電池健康度衰減程度以及電池健康度衰減速率中的至少兩種性能參數的情況下,在進行排序時,可以為每種性能參數賦予一個權重值,然後對每種性能參數的變化量乘以對應的權重值之後得到的數值進行求和,並依據求和得到的數值值進行排序。當然可以理解的是,還可以採用其他方式進行排序,本發明實施例對此不進行限定。 When the target parameter includes at least two performance parameters among the detectable degree of battery hidden danger, the decay degree of battery health, and the decay rate of battery health, when sorting, a weight value can be assigned to each performance parameter, and then a weight value can be assigned to each performance parameter. The value obtained by multiplying the variation of each performance parameter by the corresponding weight value is summed, and sorted according to the value obtained by the summation. Of course, it can be understood that other manners may also be used for sorting, which is not limited in this embodiment of the present invention.

可選地,步驟102:根據預測結果,在目標換電站內的匹配電池中,確定更換至待換電車輛上的目標匹配電池,可以包括: Optionally, step 102: According to the prediction result, among the matching batteries in the target battery swap station, determine the target matching battery to be replaced on the vehicle to be swapped, which may include:

獲取預測結果中待換電車輛下一次換電的目標換電站;確定目標換電站對匹配電池的每一電池型號的需求強度,並將與需求強度最大的目標電池型號對應的匹配電池,確定為更換至待換電車輛上的目標匹配電池。 Obtain the target battery swap station for the next battery swap of the vehicle to be swapped in the prediction result; determine the demand intensity of the target battery swap station for each battery model of the matching battery, and determine the matching battery corresponding to the target battery model with the highest demand intensity as Change to the target matching battery on the vehicle to be swapped.

車輛經常去哪裡換電,換電站內是否有車輛所需的動力電池,會影響換電站的電池運營效率(也可以理解為電池運營效益),所以,車輛的未來使用行為還可能會對動力電池的運營效率產生影響。本發明實施例中,根據待換電車輛下一次換電的換電站對電池型號的需求強度,選擇將與需求強度最大的目標電池型號對應的匹配電池,確定為更換至待換電車輛上的目標匹配電池,這樣可以使待換電車輛在下一次換電時將目標匹配電池帶到目標換電站,保證用戶的使用需求,提高電池的出租率,進而提升換電站的運營效率。 Where does the vehicle often go to change power, and whether there is a power battery required by the vehicle in the power exchange station, it will affect the battery operation efficiency of the power exchange station (which can also be understood as the battery operation benefit). Therefore, the future use behavior of the vehicle may also affect the power battery. operational efficiency. In the embodiment of the present invention, according to the demand intensity of the battery model of the battery type of the battery swap station for the next battery swap of the vehicle to be battery swapped, the matching battery corresponding to the target battery model with the highest demand intensity is selected and determined to be replaced on the vehicle to be battery swapped. Target matching battery, so that the vehicle to be swapped can bring the target matching battery to the target swap station in the next battery swap, so as to ensure the usage demand of users, improve the rental rate of the battery, and then improve the operation efficiency of the swap station.

可選地,本申請實施例中,可以基於待換電車輛的歷史使用行為,預測待換電車輛本次換電後至下一次換電時的未來使用行為。 Optionally, in the embodiment of the present application, based on the historical usage behavior of the vehicle to be swapped, the future usage behavior of the vehicle to be swapped after the current battery swap to the next battery swap can be predicted.

對於待換電車輛本次換電後至下一次換電時的未來使用行為的預測結果,可以是每次待換電車輛需要換電時預測得到的,即每次待換電車輛需要換電時,均需進行一次對待換電車輛的未來使用行為的預測。 The prediction result of the future usage behavior of the vehicle to be swapped after the current swap to the next time can be predicted every time the vehicle to be swapped needs to be swapped, that is, every time the vehicle to be swapped needs to be swapped Each time, a prediction of the future usage behavior of the vehicle to be swapped is required.

此外,在待換電車輛上一次換電後至本次換電前的歷史使用行為,與上上次換電後至上一次換電前的歷史使用行為的相似度大於或等於預設數值的情況下,可以將上一次換電時所用的預測結果,作為本次換電時所需的預測結果。待換電車輛的未來使用行為往往可以基於待換電車輛的歷史使用行為進行預測。在歷史使用行為變化不大的情況下,未來使用行為的預測結果也會比較相似,因此,在本次換電之前的前兩次換電之後(即上一次換電後至本次換電前以及上上次換電後至上一次換電前)的歷史使用行為比較相似的情況下,可以將上一次換電時所用的預測結果,作為本次換電時所需的預測結果,以減少不必要的預測處理。這裡所述的預設數值至少大於50%,小於100%,具體取值可根據對未來使用行為的預測準確度的需求進行選擇。例如,若想提高未來使用行為的預測準確度,可以選擇較大的數值,如90%等。若對未來使用行為的預測準確度的要求不高,可以選擇較小的數值,如70%等。 In addition, the similarity between the historical usage behavior of the vehicle to be replaced after the last battery replacement to the current battery replacement is greater than or equal to the preset value. Next, the prediction result used in the last power exchange can be used as the prediction result required for this power exchange. The future usage behavior of the vehicle to be swapped can often be predicted based on the historical usage behavior of the vehicle to be swapped. Under the condition that the historical usage behavior does not change much, the prediction results of the future usage behavior will be similar. and when the historical usage behaviors after the last power exchange to before the last power exchange are similar, the prediction result used in the last power exchange can be used as the prediction result required for this power exchange to reduce the Necessary predictive processing. The preset value described here is at least greater than 50% and less than 100%, and the specific value can be selected according to the demand for the prediction accuracy of future usage behavior. For example, if you want to improve the prediction accuracy of future usage behavior, you can choose a larger value, such as 90%. If the requirements for the prediction accuracy of future usage behaviors are not high, a smaller value, such as 70%, can be selected.

可選地,在每次待換電車輛換電時均需預測一次未來使用行為情況下,在步驟201:獲取待換電車輛在本次換電後至下一次換電時的未來使用行為的預測結果之前,該車輛與電池的匹配方法還可以包括: Optionally, in the case where a future usage behavior needs to be predicted every time the vehicle to be replaced is replaced, in step 201: obtain the future usage behavior of the vehicle to be replaced from the current battery replacement to the next battery replacement. Before predicting the result, the matching method of the vehicle and the battery may also include:

根據待換電車輛的歷史使用行為數據以及當前的位置信息,對待換電車輛在本次換電後至下一次換電時的未來使用行為進行預測,獲得預測結果。 According to the historical usage behavior data and current location information of the vehicle to be swapped, the future usage behavior of the vehicle to be swapped from the current swap to the next swap is predicted, and the prediction result is obtained.

車輛使用過程中,可以上報使用行為數據至服務器,因此服務器中存儲有待換電車輛的歷史使用行為數據。此外,服務器還可以獲取待換電車輛當前的位置信息。 During the use of the vehicle, the usage behavior data can be reported to the server, so the server stores the historical usage behavior data of the vehicle to be swapped. In addition, the server can also obtain the current location information of the vehicle to be swapped.

一般,通過對車輛的歷史使用行為進行分析,往往可以得到車輛的使用行為規律,從而可以根據車輛的使用行為規律,預測車輛的未來使用行為。而由車輛當前的位置也可以預測出車輛未來的一些使用行為,如車輛當前 行駛在高速公路上,則可以依據車輛上的動力電池的續航里程以及沿途的換電站分佈情況,預測出車輛將在哪個換電站進行換電。待換電車輛的歷史使用行為數據,反映了車輛的使用行為規律,依此進行未來行為的預測,能夠使預測結果更加準確。而待換電車輛的當前位置,可以反映出待換電車輛在短時間內的可能行為,因此,可以進一步提高預測結果的準確性。 Generally, by analyzing the historical usage behavior of the vehicle, the usage behavior rule of the vehicle can often be obtained, so that the future usage behavior of the vehicle can be predicted according to the usage behavior rule of the vehicle. From the current position of the vehicle, some future usage behaviors of the vehicle can also be predicted, such as the current When driving on the highway, it is possible to predict which battery swap station the vehicle will exchange at based on the cruising range of the power battery on the vehicle and the distribution of the battery swap stations along the way. The historical usage behavior data of the vehicle to be swapped reflects the usage behavior rule of the vehicle, and the prediction of future behavior can make the prediction result more accurate. The current position of the vehicle to be replaced can reflect the possible behavior of the vehicle to be replaced in a short period of time, so the accuracy of the prediction result can be further improved.

可選地,本發明實施例中,預測的未來使用行為可以包括:待換電車輛下一次換電的時間和地點,待換電車輛本次換電後至下一次換電前在對動力電池的使用上所需的累計續航里程以及累計吞吐電量,以及待換電車輛本次換電後至下一次換電前的充電行為、行駛行為、停車行為。 Optionally, in this embodiment of the present invention, the predicted future usage behavior may include: the time and place of the next battery swap of the vehicle to be swapped, the power battery of the vehicle to be swapped after the current battery swap and before the next battery swap. The accumulative cruising range and accumulative power throughput required for the use, as well as the charging behavior, driving behavior, and parking behavior of the vehicle to be replaced after the current power exchange to the next power exchange.

在預測得到待換電車輛的下一次換電的時間和地點後,可以得到各換電站的換電需求,從而基於各換電站的換電需求調度電池,滿足按需使用電池的需求,從而提高電池的運營效率。在預測得到本次換電後至下一次換電前在對動力電池的使用上所需的累計續航里程以及累計吞吐電量,以及本次換電後至下一次換電前的充電行為、行駛行為、停車行為後,可以基於這些使用行為,評估動力電池的電池隱患可探測程度、電池健康度衰減程度、電池健康度衰減速率等參數的變化量,從而基於這些參數的變化量,進行電池的調度,減小換電站內的動力電池在目標參數上的差異,均衡換電站內的動力電池的性能。 After predicting the time and place of the next power exchange of the vehicle to be replaced, the power exchange demand of each power exchange station can be obtained, so as to schedule batteries based on the power exchange demand of each power exchange station to meet the needs of using batteries on demand, thereby improving the The operating efficiency of the battery. Predict the cumulative cruising range and cumulative throughput required for the use of the power battery after this power exchange and before the next power exchange, as well as the charging behavior and driving behavior after this power exchange and before the next power exchange , After the parking behavior, you can evaluate the changes of parameters such as the detectable degree of battery hidden dangers, the attenuation degree of battery health, and the decay rate of battery health based on these usage behaviors, so as to make battery scheduling based on the changes of these parameters. , reduce the difference in target parameters of the power batteries in the swap station, and balance the performance of the power batteries in the swap station.

為了更好地理解如何根據待換電車輛的歷史使用行為數據以及當前的位置信息,預測待換電車輛本次換電後至下一次換電時的未來使用行為,下面進行進一步的解釋說明。 In order to better understand how to predict the future usage behavior of the vehicle to be swapped from the current battery swap to the next battery swap based on the historical usage behavior data and current location information of the vehicle to be swapped, further explanations are given below.

在待換電車輛沒有處於高速公路上,或沒有處於高速公路的服務站中的情況下,假設,本次換電時間為2020年5月1日,根據待換電車輛的歷史使用行為數據,得到待換電車輛的換電頻率為五天,即每隔五天換電一次,則可 以預測下一次換電時間為2020年5月7日。此外,根據待換電車輛歷史使用行為數據,對待換電車輛去過的換電站按照去往頻率進行排序,可以將去往頻率最高的換電站,預測為下一次換電的地點。 In the case where the vehicle to be swapped is not on the expressway, or is not in the service station of the expressway, it is assumed that the time of the battery swap is May 1, 2020. According to the historical usage behavior data of the vehicle to be swapped, The battery replacement frequency of the vehicle to be replaced is five days, that is, the battery is replaced every five days. It is estimated that the next battery replacement time will be May 7, 2020. In addition, according to the historical usage behavior data of the vehicles to be swapped, the swap stations that the vehicles to be swapped have been to are sorted according to the frequency, and the swap station with the highest frequency can be predicted as the location of the next battery swap.

在預測到下一次換電時間後,可以根據待換電車輛的歷史使用行為數據,預測待換電車輛本次換電後至下一次換電時,在對動力電池的使用上,所需的累計續航里程以及累計吞吐電量。假設,根據待換電車輛的歷史使用行為數據,得到待換電車輛歷史每天累計行駛路程為50公里,則可以預測出本次換電時間至下一次換電時間的總天數內的累計行駛路程,如:2020年5月1日到2020年5月7日的7天內,累計行駛路程為:50*7=350公里,從而可以預測出這7天內,所需動力電池的累計續航里程為350公里。當然預測的動力電池的累計續航里程也可以比350公里稍大一些,如370公里等,以留餘量。在預測到動力電池的累計續航里程後,可以依此預測出動力電池在這樣的累計續航里程下的累計吞吐電量。 After predicting the time of the next battery replacement, it can be predicted, based on the historical usage behavior data of the vehicle to be replaced, that the vehicle to be replaced will use the power battery from the current battery replacement to the next battery replacement. Accumulated cruising range and accumulated power throughput. Assuming that, according to the historical usage behavior data of the vehicle to be swapped, the accumulated daily distance of the vehicle to be swapped is 50 kilometers, then the cumulative travel distance within the total number of days from the current battery swap time to the next battery swap time can be predicted. , such as: within 7 days from May 1, 2020 to May 7, 2020, the cumulative driving distance is: 50*7=350 kilometers, so that the cumulative cruising range of the required power battery in these 7 days can be predicted is 350 kilometers. Of course, the predicted cumulative cruising range of the power battery can also be slightly larger than 350 kilometers, such as 370 kilometers, to leave a margin. After the cumulative cruising range of the power battery is predicted, the cumulative throughput of the power battery under such cumulative cruising range can be predicted accordingly.

根據待換電車輛的歷史使用行為數據,還可以預測出待換電車輛在本次換電後至下一次換電前的充電行為、駕駛行為以及停車行為等。例如,根據待換電車輛的歷史充電行為,預測本次換電後至下一次換電前的充電行為,如充電總次數、採用直流快充方式的充電次數、採用交流慢充方式的充電次數等。又例如,根據待換電車輛的歷史行駛行為,預測本次換電後至下一次換電前的行駛行為,如以怎樣的車速行駛、是平緩行駛還是顛簸行駛等。再例如,根據待換電車輛的歷史停車行為,預測本次換電後至下一次換電前的停車行為,如每次停車時長為多久、停車總時長為多久等。 According to the historical usage behavior data of the vehicle to be replaced, it is also possible to predict the charging behavior, driving behavior, and parking behavior of the vehicle to be replaced between the current battery replacement and the next battery replacement. For example, according to the historical charging behavior of the vehicle to be replaced, predict the charging behavior after the current battery replacement until the next battery replacement, such as the total number of charging times, the number of charging times using the DC fast charging method, and the number of charging times using the AC slow charging method. Wait. For another example, according to the historical driving behavior of the vehicle to be swapped, the driving behavior after the current battery swap to before the next battery swap is predicted, such as what speed to drive at, whether to drive smoothly or bumpy. For another example, according to the historical parking behavior of the vehicle to be swapped, the parking behavior after the current battery swap to before the next battery swap is predicted, such as how long each parking time is, how long the total parking time is, etc.

在待換電車輛處於高速公路上或高速公路的服務站中的情況下,假設,待換電車輛當前處於甲服務區,並將要在甲服務區中的a換電站進行換電,則可以根據待換電車輛的行駛方向和目的地,確定可能要途徑的換電站由遠及 近依次為:乙服務區中的b換電站和丙服務區中的c換電站,而待換電車輛的當前位置距離b換電站為250公里,距離c換電站為300公里。其中,對於待換電車輛的行駛方向和目的地,可以通過車載導航系統或手機導航系統等獲得。 In the case where the vehicle to be swapped is on the expressway or in the service station of the expressway, it is assumed that the vehicle to be swapped is currently in the service area A and will be swapped at the service station a in the service area A. The driving direction and destination of the vehicle to be swapped, and the swapping stations that may be routed are determined from far to The closest order is: the b swap station in the B service area and the c swap station in the C service area, and the current position of the vehicle to be swapped is 250 kilometers away from the b swap station and 300 kilometers away from the c swap station. Among them, the driving direction and destination of the vehicle to be swapped can be obtained through a vehicle navigation system or a mobile phone navigation system.

根據待換電車輛的產品型號,可以確定與待換電車輛匹配的動力電池,根據待換電車輛的歷史換電數據(如使用次數最多的動力電池的型號和規格),可以預測出待換電車輛本次換電的動力電池的型號和規格。又由於待換電車輛當前位置的特殊性,在本次更換的動力電池虧電後,直接更換動力電池的可能性更大,由此可以預測出本次換電後至下一次換電前在對動力電池的使用上,所需的累計續航里程以及累計吞吐電量。由於直接更換動力電池的可能性更大,則可以預測出本次換電後至下一次換電前可能不存在充電行為。又根據待換電車輛在高速公路上的歷史行駛行為和歷史停車行為,可以預測出本次換電後至下一次換電前的行駛行為(如行駛速度等)和停車行為(如每次停車時長為多久、停車總時長為多久等)。 According to the product model of the vehicle to be replaced, the power battery matching the vehicle to be replaced can be determined. According to the historical power exchange data of the vehicle to be replaced (such as the model and specification of the power battery that has been used the most), the power battery to be replaced can be predicted. The model and specifications of the power battery for the electric vehicle to be replaced this time. In addition, due to the particularity of the current position of the vehicle to be replaced, it is more likely to directly replace the power battery after the power battery to be replaced this time runs out of power. For the use of the power battery, the required cumulative cruising range and the cumulative power throughput. Since it is more likely to directly replace the power battery, it can be predicted that there may be no charging behavior after this power exchange until the next power exchange. According to the historical driving behavior and historical parking behavior of the vehicle to be replaced on the expressway, the driving behavior (such as driving speed, etc.) and parking behavior (such as each parking time) can be predicted from the current battery replacement to the next battery replacement. How long is it, how long is the total parking time, etc.).

再假設,依據預測出的本次換電後的續航里程,估算出續航里程支持待換電車輛的行駛路程為280公里,顯然續航里程可以支持待換電車輛行駛至b換電站,而不支持待換電車輛行駛至c換電站,從而可以預測出下一次換電地點為b換電站。在預測出換電地點後,可以根據待換電車輛在高速公路上的歷史行駛速度,預測從當前位置到b換電站的所需時間,假設,根據歷史行駛速度確定待換電車輛的歷史平均路速度為100公里/小時,則下一次換電時間可能為2.5小時以後。 Suppose again that, based on the predicted cruising range after this battery swap, it is estimated that the cruising range supports the driving distance of the vehicle to be swapped to be 280 kilometers. Obviously, the cruising range can support the vehicle to be swapped to the b swap station, but not the battery. The vehicle to be swapped drives to the c-swap station, so that it can be predicted that the next power-swap location is the b-swap station. After predicting the power exchange location, the time required from the current position to the b-swap station can be predicted according to the historical driving speed of the vehicle to be replaced on the expressway. Suppose, the historical average of the vehicle to be replaced is determined according to the historical driving speed. If the road speed is 100 km/h, the next battery replacement time may be 2.5 hours later.

總得來說,預測待換電車輛的未來使用行為,實際上對在預測對動力電池的使用情況,從而評估這些使用行為對動力電池的影響。 In general, predicting the future use behavior of the vehicle to be replaced is actually predicting the use of the power battery, so as to evaluate the impact of these use behaviors on the power battery.

需要說明的是,上述描述僅是用於舉例說明,並非是對本發明實施例提供的技術方案的具體限定,具體如何預測待換電車輛的未來使用行為,也可以採用其他可實現方式實現。 It should be noted that the above description is only for illustration, not a specific limitation of the technical solutions provided by the embodiments of the present invention. How to predict the future use behavior of the vehicle to be swapped can also be implemented in other achievable manners.

可選地,對於步驟202,在根據預測結果,評估目標換電站內的每一匹配電池的目標參數的變化量時,可以預先設置一評估表,在該評估表中,包括車輛的多種使用行為信息(如充電行為、行駛行為以及停車行為等),對於每種使用行為的不同程度,設定了對目標參數的影響程度,如充電時長分別為1小時、3小時、5小時的情況下,對目標參數的影響程度。依據該評估表,可以得到待換電車輛的每種未來使用行為,對目標參數的影響結果。此外,對於車輛的不同使用行為,還可以賦予一權重值,最後可以根據每種使用行為對目標參數的影響程度的權重比,得到綜合影響結果,從而得到目標參數的變化量。 Optionally, for step 202, when evaluating the variation of the target parameter of each matching battery in the target battery swap station according to the prediction result, an evaluation table may be preset, and the evaluation table includes various usage behaviors of the vehicle. Information (such as charging behavior, driving behavior, and parking behavior, etc.), for the different degrees of each use behavior, the degree of influence on the target parameters is set. For example, when the charging time is 1 hour, 3 hours, and 5 hours, respectively, The degree of influence on the target parameter. According to the evaluation table, the impact results of each future use behavior of the vehicle to be battery swapped on the target parameters can be obtained. In addition, a weight value can also be assigned to different use behaviors of the vehicle, and finally the comprehensive influence result can be obtained according to the weight ratio of the influence degree of each use behavior on the target parameter, thereby obtaining the change amount of the target parameter.

可以理解的是,前述實施例僅是一種實現方式,還可以採用其他可實現方式實現,本發明實施例對此不進行限定。 It can be understood that the foregoing embodiment is only an implementation manner, and may also be implemented in other implementable manners, which are not limited in this embodiment of the present invention.

可選地,本發明實施例中所述的目標換電站可以是待換電車輛當前所在的換電站,也可以是待換電車輛當前位置的預設範圍內的換電站。在目標換電站為待換電車輛當前位置的預設範圍內的換電站時,目標換電站包括的換電站的數量為至少一個。 Optionally, the target swapping station described in the embodiment of the present invention may be a swapping station where the vehicle to be swapped is currently located, or a swapping station within a preset range of the current position of the vehicle to be swapped. When the target swapping station is a swapping station within a preset range of the current position of the vehicle to be swapped, the target swapping station includes at least one swapping station.

也就是說,可以在待換電車輛到達換電站時,針對待換電車輛所在的換電站中的匹配電池,進行車輛與電池之間的匹配。也可以在待換電車輛未到達換電站時,根據待換電車輛的當前位置,確定待換電車輛的當前位置的預設範圍內的換電站,然後針對該預設範圍內的換電站中的匹配電池,進行車輛與電池之間的匹配。 That is to say, when the vehicle to be swapped arrives at the swapping station, matching between the vehicle and the battery can be performed for the matching battery in the swapping station where the vehicle to be swapped is located. When the vehicle to be swapped does not arrive at the swap station, the current position of the vehicle to be swapped can also be used to determine the swap station within the preset range of the current position of the vehicle to be swapped, and then target the swap stations within the preset range. The matching battery is used for matching between the vehicle and the battery.

可選地,在目標換電站為待換電車輛當前位置的預設範圍內的換電站的情況下,在確定更換至待換電車輛上的目標匹配電池之後,所述車輛與電池的匹配方法還包括:發送推薦信息至目標終端設備。 Optionally, in the case that the target battery swap station is a battery swap station within the preset range of the current position of the vehicle to be battery swapped, after determining the target matching battery to be replaced on the vehicle to be battery swapped, the method for matching the vehicle to the battery It also includes: sending recommendation information to the target terminal device.

其中,這裡所述的推薦信息可以包括:目標匹配電池所在的換電站名稱以及地理位置。這裡所述的目標終端設備可以包括但不限於:車載電子設備、手機、平板電腦、筆記本電腦、掌上電腦、可穿戴設備、上網本或者個人數字助理等。 Wherein, the recommended information described here may include: the name and geographic location of the swap station where the target matching battery is located. The target terminal devices described here may include, but are not limited to, vehicle electronic devices, mobile phones, tablet computers, notebook computers, handheld computers, wearable devices, netbooks, or personal digital assistants.

本發明實施例中,在待換電車輛當前位置的預設範圍內的換電站中,確定目標匹配電池後,可以發送推薦信息至目標終端設備,如發送推薦信息至用戶手機或是待換電車輛上的車載電腦等,引導用戶前往目標匹配電池所在的換電站進行換電,以提高用戶前往目標匹配電池所在的換電站的概率。此外,在更大範圍內確定目標匹配電池,可以兼顧更多的換電站,使多個換電站中的電池的性能彼此均衡。 In the embodiment of the present invention, in the battery swap station within the preset range of the current position of the vehicle to be swapped, after determining that the target matches the battery, recommendation information can be sent to the target terminal device, such as sending recommendation information to the user's mobile phone or the battery to be swapped The on-board computer on the vehicle, etc., guides the user to go to the swap station where the target-matching battery is located for power exchange, so as to improve the probability of the user going to the swap station where the target-matching battery is located. In addition, by determining the target matching battery in a wider range, more swap stations can be taken into account, so that the performance of the batteries in the multiple swap stations can be balanced with each other.

可選地,用戶在想要對車輛進行換電時,可以啟動目標終端設備中的換電應用程序(以下簡稱換電APP),在換電APP中查看當前位置周圍的換電站。在用戶確定對車輛進行換電時,可以在換電APP中觸發換電請求,目標終端設備將換電請求發送至服務器,服務根據該換電請求進行車電匹配,確定目標匹配電池。 Optionally, when the user wants to change the battery of the vehicle, he can start the battery-changing application program (hereinafter referred to as the battery-changing APP) in the target terminal device, and view the battery-changing stations around the current location in the battery-changing APP. When the user decides to change the battery of the vehicle, a battery replacement request can be triggered in the battery replacement APP, and the target terminal device sends the battery replacement request to the server, and the service matches the vehicle power according to the battery replacement request to determine the target matching battery.

以上即為對本發明實施例提供的車輛與電池的匹配方法進行的描述。 The above is the description of the method for matching the vehicle and the battery provided by the embodiment of the present invention.

綜合上述描述可知,本發明實施例中,對車輛進行換電前,根據車輛的未來使用行為的預測結果,在目標換電站內確定更換至車輛上的動力電池。車輛不同的使用行為,對動力電池的性能影響不同,因此,可以根據車輛的未來使用行為,選擇將動力電池更換至有利於優化其性能的車輛上,從而使 動力電池得到更好的使用,這樣有利於減小換電站內的動力電池在性能上的差異,均衡換電站內的動力電池的性能。換電站內的動力電池的性能越均衡,也越有利於用戶使用到性能更優的動力電池,改善用戶的使用體驗,提高用戶的回頭率,進而提升電池的運營效率。 From the above description, it can be seen that in the embodiment of the present invention, before the vehicle is replaced, the power battery to be replaced on the vehicle is determined in the target battery swap station according to the prediction result of the vehicle's future use behavior. Different use behaviors of vehicles have different effects on the performance of the power battery. Therefore, according to the future use behavior of the vehicle, you can choose to replace the power battery with a vehicle that is conducive to optimizing its performance. The power battery is better used, which is conducive to reducing the performance difference of the power battery in the swap station and balancing the performance of the power battery in the swap station. The more balanced the performance of the power batteries in the swap station, the more favorable it is for users to use power batteries with better performance, improve the user experience, increase the user's return rate, and thus improve the operating efficiency of the battery.

上面對本發明實施例提供的車輛與電池的匹配方法進行了詳細描述,下面繼續本發明實施例提供的一種車輛與電池的匹配裝置進行描述。 The method for matching a vehicle and a battery provided by the embodiment of the present invention has been described in detail above, and the description of the device for matching a vehicle and a battery provided by the embodiment of the present invention is continued below.

圖3是本發明實施例提供的一種車輛與電池的匹配裝置的示意框圖,該車輛與電池的匹配裝置可以應用於服務器,也可以應用於其他電子設備(如換電站內的終端設備)等。 3 is a schematic block diagram of a vehicle-battery matching device provided by an embodiment of the present invention. The vehicle-battery matching device can be applied to a server or other electronic equipment (such as terminal equipment in a power exchange station), etc. .

如圖3所示,所述車輛與電池的匹配裝置300包括: As shown in FIG. 3 , the vehicle-battery matching device 300 includes:

獲取模塊301,用於獲取待換電車輛在本次換電後至下一次換電時的未來使用行為的預測結果。 The obtaining module 301 is configured to obtain the prediction result of the future usage behavior of the vehicle to be replaced after the current battery replacement to the next battery replacement.

確定模塊302,用於根據所述確定模塊301得到的所述預測結果,在所述目標換電站內的匹配電池中,確定更換至所述待換電車輛上的目標匹配電池。 The determining module 302 is configured to, according to the prediction result obtained by the determining module 301, determine, among the matching batteries in the target swapping station, the target matching battery to be replaced on the vehicle to be swapped.

可選地,如圖4所示,所述確定模塊302包括: Optionally, as shown in FIG. 4 , the determining module 302 includes:

評估單元3021,用於根據所述預測結果,評估所述目標換電站內的每一匹配電池的目標參數的變化量。 The evaluating unit 3021 is configured to evaluate, according to the prediction result, the variation of the target parameter of each matched battery in the target battery swapping station.

其中,所述目標參數的變化量為:若所述匹配電池本次換電至所述待換電車輛上,所述匹配電池的目標參數在所述待換電車輛下一次換電時相比於本次換電時的變化量。 Wherein, the amount of change of the target parameter is: if the matching battery is replaced on the vehicle to be replaced this time, the target parameter of the matching battery is compared to the next time the vehicle to be replaced is replaced. The amount of change during this power exchange.

確定單元3022,用於根據所述目標參數的變化量,在所述目標換電站內的匹配電池中,確定更換至所述待換電車輛上的目標匹配電池。 The determining unit 3022 is configured to, according to the variation of the target parameter, determine, among the matching batteries in the target battery swapping station, a target matching battery to be replaced on the vehicle to be battery swapped.

可選地,所述目標參數包括:電池隱患可探測程度、電池健康度衰減程度以及電池健康度衰減速率中的至少一種。 Optionally, the target parameter includes at least one of: a detectable degree of battery hidden danger, a degree of battery health decay, and a rate of battery health decay.

可選地,所述確定單元3022包括: Optionally, the determining unit 3022 includes:

排序子單元30221,用於根據所述目標參數的變化量,對所述目標換電站內的每一所述匹配電池進行排序。 A sorting subunit 30221, configured to sort each of the matched batteries in the target battery swapping station according to the variation of the target parameter.

確定子單元30222,用於根據所述排序子單元30221對所述匹配電池的排序順序,確定所述目標匹配電池。 The determining subunit 30222 is configured to determine the target matching battery according to the sorting order of the matching battery by the sorting subunit 30221.

可選地,如圖4所示,所述所述車輛與電池的匹配裝置300還包括: Optionally, as shown in FIG. 4 , the vehicle-battery matching device 300 further includes:

預測模塊303,用於根據所述待換電車輛的歷史使用行為數據以及當前的位置信息,對所述待換電車輛在本次換電後至下一次換電時的未來使用行為進行預測,獲得所述預測結果。 The prediction module 303 is configured to predict the future usage behavior of the vehicle to be swapped from the current battery swap to the next battery swap according to the historical usage behavior data and the current location information of the to-be-swapped vehicle, Obtain the predicted result.

可選地,所述未來使用行為包括:下一次換電的時間和地點,本次換電後至下一次換電前在對動力電池的使用上所需的累計續航里程以及累計吞吐電量,以及本次換電後至下一次換電前的充電行為、行駛行為、停車行為。 Optionally, the future usage behavior includes: the time and place of the next power exchange, the accumulated cruising range and accumulated throughput power required for the use of the power battery after the current power exchange and before the next power exchange, and The charging behavior, driving behavior, and parking behavior after the current power exchange and before the next power exchange.

可選地,所述目標換電站為所述待換電車輛當前所在的換電站,或所述待換電車輛的當前位置的預設範圍內的換電站。 Optionally, the target swapping station is a swapping station where the vehicle to be swapped is currently located, or a swapping station within a preset range of the current position of the vehicle to be swapped.

可選地,如圖4所示,在所述目標換電站為所述待換電車輛的當前位置的預設範圍內的換電站的情況下,所述車輛與電池的匹配裝置300還包括: Optionally, as shown in FIG. 4 , when the target swapping station is a swapping station within a preset range of the current position of the vehicle to be swapped, the vehicle-battery matching device 300 further includes:

發送模塊304,用於發送推薦信息至目標終端設備。 The sending module 304 is configured to send the recommendation information to the target terminal device.

其中,所述推薦信息包括:所述目標匹配電池所在的換電站名稱以及地理位置。 Wherein, the recommendation information includes: the name and geographic location of the swap station where the target matching battery is located.

本發明實施例中,對車輛進行換電前,根據車輛的未來使用行為的預測結果,在目標換電站內確定更換至車輛上的動力電池。車輛不同的使用行為,對動力電池的性能影響不同,因此可以根據車輛的未來使用行為,選擇 將動力電池更換至有利於優化其性能的車輛上,從而使動力電池得到更好的使用,這樣有利於減小換電站內的動力電池在性能上的差異,均衡換電站內的動力電池的性能。換電站內的動力電池的性能越均衡,也越有利於用戶使用到性能更優的動力電池,改善用戶的使用體驗,提高用戶的回頭率,進而提升電池的運營效率。 In the embodiment of the present invention, before the vehicle is replaced, the power battery to be replaced on the vehicle is determined in the target battery swap station according to the prediction result of the future use behavior of the vehicle. Different usage behaviors of vehicles have different effects on the performance of the power battery, so you can choose according to the future usage behavior of the vehicle. Replacing the power battery to a vehicle that is conducive to optimizing its performance, so that the power battery can be better used, which is conducive to reducing the performance difference of the power battery in the swap station and balancing the performance of the power battery in the swap station. . The more balanced the performance of the power batteries in the swap station, the more favorable it is for users to use power batteries with better performance, improve the user experience, increase the user's return rate, and thus improve the operating efficiency of the battery.

對於上述車輛與電池的匹配裝置實施例而言,由於其與車輛與電池的匹配方法實施例基本相似,相關之處參見方法實施例的部分說明即可,為了避免重複,在車輛與電池的匹配裝置實施例中便不再進行贅述。 For the above-mentioned embodiment of the matching device for vehicle and battery, since it is basically similar to the embodiment of the matching method for vehicle and battery, the relevant part can be referred to the description of the method embodiment. In the embodiment of the apparatus, detailed descriptions are omitted.

依據本發明實施例的一個方面,本發明實施例還提供了一種車輛與電池的匹配系統,包括:存儲器和處理器,所述存儲器存儲有計算機程序,所述計算機程序被所述處理器執行時實現如上所述的車輛與電池的匹配方法實施例中的各個過程,且能達到相同的技術效果,為避免重複,這裡不再贅述。 According to an aspect of the embodiments of the present invention, the embodiments of the present invention further provide a vehicle-battery matching system, including: a memory and a processor, the memory stores a computer program, and when the computer program is executed by the processor Various processes in the above-mentioned embodiments of the vehicle-battery matching method are implemented, and the same technical effect can be achieved. To avoid repetition, details are not repeated here.

依據本發明實施例的另一個方面,本發明實施例還提供了一種計算機可讀存儲介質,其上存儲有計算機程序,所述計算機程序被處理器執行時實現如上所述的車輛與電池的匹配方法實施例中的各個過程,且能達到相同的技術效果,為避免重複,這裡不再贅述。這裡所述的計算機可讀存儲介質可以是能存儲程序或指令的任何類型的元器件、模塊或裝置,可以包括但不限於例如只讀存儲器(ROM)、隨機存取存儲器(RAM)、可擦寫可編程只讀存儲器(EPROM)、U盤、磁盤等。 According to another aspect of the embodiments of the present invention, the embodiments of the present invention further provide a computer-readable storage medium on which a computer program is stored, and when the computer program is executed by a processor, the above-mentioned matching of the vehicle and the battery is realized. Each process in the method embodiment can achieve the same technical effect, and in order to avoid repetition, it will not be repeated here. The computer-readable storage medium described herein can be any type of component, module or device that can store programs or instructions, and can include, but is not limited to, for example, read only memory (ROM), random access memory (RAM), erasable memory Write programmable read-only memory (EPROM), U disk, disk, etc.

通過以上的實施方式的描述,本領域的技術人員可以清楚地瞭解到各實施方式可借助軟件加必需的通用硬件平臺的方式來實現,當然也可以通過硬件。基於這樣的理解,上述技術方案本質上或者說對現有技術做出貢獻的部分可以以軟件產品的形式體現出來,該計算機軟件產品可以存儲在計算機可讀存儲介質中,如ROM/RAM、磁碟、光盤等,包括若干指令用以使得一台計算 機設備(可以是個人計算機,服務器,或者網絡設備等)執行各個實施例或者實施例的某些部分所述的方法。 From the description of the above embodiments, those skilled in the art can clearly understand that each embodiment can be implemented by means of software plus a necessary general hardware platform, and certainly can also be implemented by hardware. Based on this understanding, the above-mentioned technical solutions can be embodied in the form of software products in essence or the parts that contribute to the prior art. The computer software products can be stored in computer-readable storage media, such as ROM/RAM, magnetic disks, etc. , CD-ROM, etc., including several instructions to make a computer A computer device (which may be a personal computer, a server, or a network device, etc.) executes the methods described in various embodiments or parts of embodiments.

最後應說明的是:以上實施例僅用以說明本發明的技術方案,而非對其限制;儘管參照前述實施例對本發明進行了詳細的說明,本領域的普通技術人員應當理解:其依然可以對前述各實施例所記載的技術方案進行修改,或者對其中部分技術特徵進行等同替換;而這些修改或者替換,並不使相應技術方案的本質脫離本發明各實施例技術方案的精神和範圍。 Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, but not to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that it can still be The technical solutions described in the foregoing embodiments are modified, or some technical features thereof are equivalently replaced; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.

201:獲取待換電車輛本次換電後至下一次換電時的未來使用行為的預測結果 201: Obtain the prediction result of the future usage behavior of the vehicle to be replaced after the current battery replacement to the next battery replacement

202:根據預設結果,在目標換電站內的匹配電池中確定更換至待換電車輛上的目標匹配電池 202: According to the preset result, determine the target matching battery to be replaced on the vehicle to be swapped in the matching batteries in the target swapping station

Claims (9)

一種車輛與電池的匹配方法,其中該車輛與電池的匹配方法包括:獲取待換電車輛在本次換電後至下一次換電時的未來使用行為的預測結果;根據該預測結果,在目標換電站內的匹配電池中,確定更換至該待換電車輛上的目標匹配電池;其中根據該預測結果,在目標換電站內的匹配電池中,確定更換至該待換電車輛上的目標匹配電池,包括:根據該預測結果,評估該目標換電站內的每一匹配電池的目標參數的變化量;其中,該目標參數的變化量為:若該匹配電池本次換電至該待換電車輛上,該匹配電池的目標參數在該待換電車輛下一次換電時相比於本次換電時的變化量;根據該目標參數的變化量,在該目標換電站內的匹配電池中,確定更換至該待換電車輛上的目標匹配電池。 A vehicle-to-battery matching method, wherein the vehicle-to-battery matching method includes: obtaining a prediction result of the future usage behavior of the vehicle to be swapped after the current battery swap to the next battery swap; Among the matching batteries in the swap station, determine the target matching battery to be replaced on the vehicle to be swapped; wherein according to the prediction result, among the matching batteries in the target swapping station, determine the target matching battery to be replaced on the vehicle to be swapped The battery includes: evaluating the variation of the target parameter of each matching battery in the target battery swap station according to the prediction result; wherein, the variation of the target parameter is: if the matching battery is replaced this time to the to-be-swapped battery On the vehicle, the change of the target parameter of the matching battery in the next power exchange of the vehicle to be power-swapped compared to the current power-swap; according to the change of the target parameter, in the matching battery in the target power-swapping station , and determine the target matching battery to be replaced on the vehicle to be swapped. 如請求項1所述的車輛與電池的匹配方法,其中該目標參數包括:電池隱患可探測程度、電池健康度衰減程度以及電池健康度衰減速率中的至少一種。 The method for matching a vehicle and a battery according to claim 1, wherein the target parameter includes at least one of: a detectable degree of battery hidden danger, a degree of battery health decay, and a rate of battery health decay. 如請求項1所述的車輛與電池的匹配方法,其中根據該目標參數的變化量,在該目標換電站內的該匹配電池中,確定更換至該待換電車輛上的目標匹配電池,包括:根據該目標參數的變化量,對該目標換電站內的每一該匹配電池進行排序;根據該匹配電池的排序順序,確定該目標匹配電池。 The method for matching a vehicle and a battery according to claim 1, wherein, according to the variation of the target parameter, in the matching battery in the target swapping station, the target matching battery to be replaced on the vehicle to be swapped is determined, comprising: : according to the variation of the target parameter, sort each of the matching batteries in the target swapping station; determine the target matching battery according to the sorting order of the matching batteries. 如請求項1所述的車輛與電池的匹配方法,其中該獲取待換電車輛在本次換電後至下一次換電時的未來使用行為的預測結果之前,該車輛與電池的匹配方法還包括:根據該待換電車輛的歷史使用行為數據以及當前的位置信息,對該待換電車輛在本次換電後至下一次換電時的未來使用行為進行預測,獲得該預測結果。 The method for matching a vehicle and a battery according to claim 1, wherein the method for matching the vehicle and the battery further includes obtaining the prediction result of the future usage behavior of the vehicle to be replaced after the current power exchange to the next power exchange. The method includes: predicting the future use behavior of the vehicle to be swapped from the current power swap to the next power swap based on the historical usage behavior data and current location information of the to-be-swapped vehicle, to obtain the prediction result. 如請求項1所述的車輛與電池的匹配方法,其中該未來使用行為包括:下一次換電的時間和地點,本次換電後至下一次換電前在對動力電池的使用上所需的累計續航里程以及累計吞吐電量,以及本次換電後至下一次換電前的充電行為、行駛行為、停車行為。 The method for matching a vehicle and a battery according to claim 1, wherein the future use behavior includes: the time and place of the next power exchange, the need for the use of the power battery after the current power exchange and before the next power exchange The accumulated cruising range and accumulated power throughput, as well as the charging behavior, driving behavior, and parking behavior after the current power exchange and before the next power exchange. 如請求項1所述的車輛與電池的匹配方法,其中該目標換電站為該待換電車輛當前所在的換電站,或該待換電車輛的當前位置的預設範圍內的換電站。 The vehicle-battery matching method according to claim 1, wherein the target swapping station is a swapping station where the vehicle to be swapped is currently located, or a swapping station within a preset range of the current location of the vehicle to be swapped. 一種車輛與電池的匹配裝置,其中該車輛與電池的匹配裝置包括:獲取模塊,用於獲取待換電車輛在本次換電後至下一次換電時的未來使用行為的預測結果;確定模塊,用於根據該確定模塊得到的該預測結果,在目標換電站內的匹配電池中,確定更換至該待換電車輛上的目標匹配電池;所述確定模塊包括:評估單元,用於根據所述預測結果,評估所述目標換電站內的每一匹配電池的目標參數的變化量;其中,所述目標參數的變化量為:若所述匹配電池本次換電至所述待換電車輛上,所述匹配電池的目標參數在所述待換電車輛下一次換電時相比於本次換電時的變化量;確定單元,用於根據所述目標參數的變化量,在所述目標換電站內的匹配電池中,確定更換至所述待換電車輛上的目標匹配電池。 A vehicle-battery matching device, wherein the vehicle-battery matching device comprises: an acquisition module for acquiring a prediction result of the future usage behavior of the vehicle to be replaced after the current battery swap to the next battery swap; a determination module , which is used to determine, according to the prediction result obtained by the determining module, the target matching battery to be replaced on the vehicle to be swapped among the matching batteries in the target battery swapping station; the determining module includes: an evaluation unit for According to the prediction result, evaluate the variation of the target parameter of each matching battery in the target battery swap station; wherein, the variation of the target parameter is: if the matching battery is replaced this time to the vehicle to be battery swapped above, the amount of change of the target parameter of the matching battery when the vehicle to be replaced is changed next time compared to this time of power exchange; the determining unit is configured to, according to the amount of change of the target parameter, Among the matching batteries in the target battery swapping station, determine the target matching battery to be replaced on the vehicle to be battery swapped. 一種車輛與電池的匹配系統,其包括:存儲器和處理器,該存儲器存儲有計算機程序,該計算機程序被該處理器執行時實現如請求項1至6任一項該的車輛與電池的匹配方法中的步驟。 A vehicle-battery matching system, comprising: a memory and a processor, the memory stores a computer program, and when the computer program is executed by the processor, the vehicle-battery matching method according to any one of claim 1 to 6 is realized steps in . 一種計算機可讀存儲介質,其上存儲有計算機程序,其中該計算機程序被處理器執行時實現如請求項1至6任一項所述的車輛與電池的匹配方法中的步驟。 A computer-readable storage medium on which a computer program is stored, wherein when the computer program is executed by a processor, the steps in the method for matching a vehicle and a battery according to any one of claim 1 to 6 are implemented.
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