Tag: IP Planning

  • Zinc Alloy Die Casting Keychain Patent Ideas: Quick Release, Anti-Breakage and CNC-Free Manufacturing

    Zinc Keychain Patent Strategy

    Zinc Alloy Die Casting Keychain Patent Ideas: Quick Release, Anti-Breakage and CNC-Free Manufacturing

    A patent planning guide for zinc alloy die casting keychains and key holders, focused on quick release, anti-loss reminders, anti-breakage structures and CNC-free manufacturing.

    XSD Precision2026-07-07

    Patent Strategy Positioning

    For zinc alloy die casting keychains and key holders, simple appearance changes usually do not create high-value invention patents. Stronger patent points should come from structure, function, manufacturing process, smart features and assembly method.

    Product scopeZinc alloy die casting keychain, key holder, car key holder, gift key holder and multi-function key accessory.
    Recommended routeProtect the product structure and the die casting manufacturing process together.
    Patent typesUtility models for quick-release and anti-breakage structures; invention patents for CNC-free manufacturing and dimensional compensation processes.

    1. Quick-Release Keychain Structure

    Pain pointTraditional key rings are difficult to remove and install, and they can hurt fingers.
    Patent directionA quick disassembly mechanism for zinc alloy die casting keychains.
    Innovation pointsSpring latch, sliding unlock mechanism and one-handed operation.
    Patent typeSuitable for both invention patent and utility model, depending on mechanism complexity.

    2. Anti-Loss Keychain

    Patent directionA zinc alloy keychain with anti-loss reminder function.
    Innovation pointsBluetooth module, NFC tag and buzzer reminder.
    ApplicationsCar keys, door lock keys, gift key holders and service key management.
    Commercial valueGood for smart accessory branding and value-added gift products.

    3. CNC-Free Die Casting Structure

    Patent directionA zinc alloy die casting keychain structure without secondary machining.
    Innovation pointsOne-shot die casting, no drilling and no tapping.
    Manufacturing valueReduces cost, increases production capacity and improves process consistency.
    Best fitEspecially suitable for manufacturers with die casting and tolerance-control experience.

    4. High-Strength Connection Structure

    Pain pointKeychain fracture often occurs around the connection ring or hanging hole.
    Patent directionAn anti-breakage zinc alloy keychain connection structure.
    Innovation pointsStress distribution design, reinforcing ribs and double-layer connection holes.
    Patent valueGood utility-model direction because the problem is specific and structure-based.

    5. Multi-Function Keychain

    Tool functionsBottle opener, safety cutter, screwdriver and hex wrench.
    Patent exampleA zinc alloy keychain integrating a bottle opener and quick-release mechanism.
    Design focusThe tool function should be structurally integrated rather than only attached as decoration.
    Commercial valueSuitable for outdoor accessories, automotive gifts and retail products.

    6. Premium Gift Key Holder

    Patent directionA zinc alloy key holder with hidden magnetic connection.
    FeaturesNo exposed split ring, magnetic self-positioning and clean exterior appearance.
    ApplicationsAutomotive brand gifts, premium corporate gifts and boutique key accessories.
    Patent valueBest when combined with a functional connection or assembly mechanism, not only appearance.

    7. Die Casting Process Patents

    Process topic 1A die casting method for improving the surface quality of zinc alloy keychains.
    Process topic 2A mold structure for reducing deformation of zinc alloy keychains.
    Process topic 3A cooling control system for thin-wall zinc alloy keychains.
    Process topic 4A die casting dimensional automatic compensation method for zinc alloy keychains.
    Why valuableThese topics are closer to manufacturing know-how and are less crowded than ordinary appearance changes.

    Recommended Patent Package

    Utility model 1Quick-release keychain structure.
    Utility model 2Anti-breakage connection structure.
    Invention 1CNC-free die casting process for zinc alloy keychains.
    Invention 2Automatic dimensional compensation die casting method.
    Portfolio valueThis package protects both product structure and manufacturing process, creating a more complete patent barrier.

    Need zinc die casting product or patent support?

    Send keychain drawings, target function, load requirement, finish, annual volume and tolerance targets. XSD can help structure DFM reviews, mold concepts and patent-oriented technical documents.

    Send Inquiry

    锌合金钥匙扣专利布局

    锌合金压铸钥匙扣专利布局:快拆结构、防断裂与免机加工工艺

    面向锌合金压铸钥匙扣和Key Holder的专利挖掘建议,重点关注快拆结构、防遗失提醒、防断裂连接和免二次加工压铸工艺。

    XSD Precision2026-07-07

    专利策略定位

    如果产品是锌合金压铸钥匙扣(Keychain / Key Holder),单纯外观变化通常很难形成高价值发明专利。更值得挖掘的是结构、功能、工艺、智能化和装配方式。

    产品范围锌合金压铸钥匙扣、Key Holder、汽车钥匙扣、礼品钥匙扣和多功能钥匙配件。
    推荐路线同时保护产品结构和压铸制造工艺。
    专利类型快拆结构、防断裂结构适合实用新型;免机加工工艺、尺寸自动补偿工艺适合发明专利。

    1. 快拆结构钥匙扣

    痛点传统钥匙圈拆装困难,容易伤手。
    专利方向一种用于锌合金压铸钥匙扣的快速拆装机构。
    创新点弹簧锁扣、滑动解锁、单手操作。
    可申请类型可申请发明专利或实用新型,取决于机构复杂度。

    2. 防丢失钥匙扣

    专利方向一种具有防遗失提醒功能的锌合金钥匙扣。
    创新点蓝牙模块、NFC标签、蜂鸣提醒。
    适用场景汽车钥匙、门锁钥匙、礼品钥匙扣和服务钥匙管理。
    商业价值适合智能配件品牌化和高附加值礼品产品。

    3. 免机加工压铸结构

    专利方向一种免二次加工的锌合金压铸钥匙扣结构。
    创新点压铸一次成型、无需钻孔、无需攻牙。
    制造价值降低成本、提高产能、提升工艺一致性。
    适合背景非常适合具备压铸制造和尺寸公差控制经验的企业。

    4. 高强度连接结构

    痛点钥匙扣断裂通常发生在连接环或挂孔位置。
    专利方向一种防断裂的锌合金钥匙扣连接结构。
    创新点应力分散设计、加强筋结构、双层连接孔。
    专利价值问题具体、结构清晰,适合作为实用新型方向。

    5. 多功能钥匙扣

    功能方向开瓶器、安全割刀、螺丝起子、六角扳手。
    专利示例一种集成开瓶器与快拆机构的锌合金钥匙扣。
    设计重点工具功能要与钥匙扣结构真正集成,而不是单纯外观附加。
    商业价值适合户外配件、汽车赠品和零售产品。

    6. 高端礼品钥匙扣

    专利方向一种隐藏式磁吸连接锌合金钥匙扣。
    特点无外露开口圈、磁吸自动定位、外观简洁。
    适合场景汽车品牌赠品、企业高端礼品、精品钥匙配件。
    专利价值最好与功能连接或装配机构结合,不建议只停留在外观。

    7. 压铸工艺专利

    工艺题目1一种提高锌合金钥匙扣表面质量的压铸方法。
    工艺题目2一种减少锌合金钥匙扣变形的模具结构。
    工艺题目3一种用于薄壁锌合金钥匙扣的冷却控制系统。
    工艺题目4一种锌合金钥匙扣压铸尺寸自动补偿方法。
    价值判断这些方向更贴近制造 know-how,比普通外观变化竞争更少,也更容易体现技术创新。

    商业价值最高的组合

    实用新型1快拆钥匙扣结构。
    实用新型2防断裂连接结构。
    发明1免机加工压铸工艺。
    发明2尺寸自动补偿压铸方法。
    组合价值既保护产品结构,也保护制造工艺,专利壁垒更完整。

    需要锌合金压铸产品或专利资料支持?

    请发送钥匙扣图纸、目标功能、承载要求、表面处理、年用量和公差目标。XSD 可协助整理DFM评审、模具方案和专利型技术文档。

    发送询盘
  • Zinc Alloy Die Casting Patent Portfolio: Dimension Control, Mold Compensation and AI Inspection

    Zinc Die Casting IP Strategy

    Zinc Alloy Die Casting Patent Portfolio: Dimension Control, Mold Compensation and AI Inspection

    A practical patent roadmap for zinc alloy die casting companies focused on fitting dimensions, automated compensation, mold structures, vacuum control, AI quality prediction and online inspection.

    XSD Precision2026-07-07

    Patent Strategy Positioning

    For zinc alloy die casting patents, ordinary die casting process descriptions are usually crowded with prior art. Stronger patent value often comes from actual manufacturing pain points: dimensional stability, yield improvement, automated inspection, mold structure optimization and reduced secondary machining.

    Best patent routeDimension compensation method + closed-loop inspection system + adjustable mold compensation structures.
    Suitable patent typesInvention patents for methods and systems; utility models for mold inserts, floating cores, sliders, vacuum structures and inspection fixtures.
    Planning noteThis is an engineering and IP planning article, not a legal novelty or freedom-to-operate opinion.

    1. High-Precision Dimension Control

    Why it mattersDimensional stability is one of the most common pain points in zinc alloy die casting factories.
    Research topicsThin-wall part dimension stability control, multi-hole fitting dimension consistency, automatic compensation forming system and thermal-balance mold compensation structure.
    Patent pointsAdjust local cooling intensity according to mold temperature, correct injection parameters according to online measurement results and use adjustable compensation inserts.
    ApplicationsElectronic locks, phone holders, camera housings and connector housings.

    2. Assembly Tolerance Optimization

    Industry problemZinc alloy die castings often need to assemble with plastic parts, steel parts and aluminum parts.
    Research topicA method for stabilizing fitting dimensions of zinc alloy die cast parts.
    Innovation pointBuild a correlation model of die casting shrinkage, mold temperature variation and demolding deformation, then predict final fitting dimensions.
    Portfolio valueCan support both an invention patent and a software copyright when the algorithm and production database are documented.

    3. Mold Structure Innovation

    Adjustable insertSolves hole distance deviation and coaxiality deviation.
    Floating core structureSolves ejection deformation and sticking problems.
    Self-balancing sliderSolves uneven wear and flash problems.
    Patent typeThese structures are especially suitable for utility-model patent filings and can support a broader system invention.

    4. Vacuum Die Casting Control

    Industry trendHigh-end zinc alloy products increasingly require better porosity control.
    Patent directionA zinc alloy die casting vacuum exhaust system.
    Innovation pointsZone vacuum extraction, automatic exhaust-path switching and exhaust blockage detection.
    Smart controlPressure sensors and temperature sensors can be combined to build an intelligent vacuum control system.

    5. AI + Die Casting Quality Prediction

    Research topicA zinc alloy die casting quality prediction method based on machine learning.
    InputsMold temperature, material temperature, injection speed and holding pressure.
    OutputsRisk of dimensional out-of-tolerance, porosity and deformation.
    Portfolio valueSuitable for invention patent plus software copyright combination filing.

    6. Online Inspection and Sorting

    Research topicAutomatic dimension inspection system for die cast parts.
    Innovation pointsCCD vision, laser scanning and automatic NG judgment.
    Automation chainDie casting -> inspection -> sorting through robotic handling.
    Patent valueEasy to form a patent family when combined with fixtures, algorithms, data feedback and mold compensation.

    7. Surface Treatment Pretreatment

    Industry problemElectroplating blisters, pits and pinholes are long-term zinc alloy quality issues.
    Research directionA method for reducing electroplating blister rate of zinc alloy die castings.
    Core measuresMold venting structure, surface densification process and micro-shot peening pretreatment.
    Patent valueUseful for products requiring plating, decorative finishes or high cosmetic surfaces.

    8. Consumer Electronics Product Patents

    Product fieldsSmart door locks, cameras, AR/VR devices and mobile phone accessories.
    Example patentA high-precision zinc alloy lock body die casting structure for smart door locks.
    Innovation pointsAnti-deformation ribs, automatic positioning reference surfaces and CNC-free assembly holes.
    Commercial valueProduct-specific patents are often easier to connect with actual sales value than generic process patents.

    Recommended Three-Patent Core

    Invention methodAutomatic compensation method for fitting dimensions of zinc alloy die castings.
    Invention systemClosed-loop zinc alloy die casting dimension control system based on online inspection.
    Utility-model structuresHigh-precision zinc alloy die casting mold adjustable compensation structures, including inserts, cores and sliders.
    Portfolio structure1 method invention + 1 system invention + 2-3 utility models can create a practical patent family around tolerance optimization and fitting-dimension quality.

    Need die casting DFM or patent-oriented engineering support?

    Send drawings, key dimensions, tolerance requirements, material grade, surface finish and inspection plan. XSD can help structure DFM reviews, mold improvement ideas and patent-oriented technical documents.

    Send Inquiry

    锌合金压铸知识产权布局

    锌合金压铸专利布局:尺寸控制、模具补偿与AI在线检测

    面向锌合金压铸企业的专利布局建议,重点围绕尺寸稳定性、装配公差、模具补偿、真空压铸、AI质量预测和在线检测。

    XSD Precision2026-07-07

    专利策略定位

    如果目标是申请锌合金压铸相关专利,不建议从普通压铸工艺切入,因为大量基础技术已经公开。更有价值的是围绕尺寸稳定性、良率提升、自动化检测、模具结构优化和后加工减少等实际痛点展开。

    最佳路线尺寸自动补偿方法 + 在线检测闭环系统 + 可调式模具补偿结构。
    适合类型方法和系统适合发明专利;镶件、型芯、滑块、真空结构和检测夹具适合实用新型。
    说明本文为工程师视角的研发和知识产权规划建议,不等同于正式新颖性检索或FTO法律意见。

    1. 高精度尺寸控制方向

    推荐原因这是锌合金压铸企业最常见的痛点之一。
    研究主题薄壁件尺寸稳定控制方法、多孔位配合尺寸一致性控制技术、压铸件自动补偿成型系统、模具热平衡尺寸补偿结构。
    专利点示例根据模温实时调整局部冷却强度;根据在线测量结果自动修正压射参数;采用模具镶件可调补偿结构。
    应用场景电子锁、手机支架、摄像头外壳、连接器外壳。

    2. 装配公差优化方向

    行业痛点很多锌合金产品最终需要与塑胶件、钢件、铝件进行装配。
    研究主题一种用于锌合金压铸件配合尺寸稳定控制的方法。
    创新点建立压铸收缩率、模温变化和脱模变形三者关联模型,并通过算法预测最终配合尺寸。
    布局方式可同时布局发明专利和软件著作权。

    3. 模具结构创新方向

    可调式镶件结构解决孔距偏差和同轴度偏差问题。
    浮动型芯结构解决顶出变形和卡模问题。
    自平衡滑块结构解决偏磨和飞边问题。
    专利类型这类结构最容易形成实用新型专利,也可以作为系统发明的硬件基础。

    4. 真空压铸方向

    行业趋势高端锌合金产品越来越重视气孔控制。
    专利方向一种锌合金压铸真空排气系统。
    创新点分区抽真空、自动切换排气路径、排气堵塞检测。
    智能化扩展结合压力传感器和温度传感器,形成智能真空控制系统。

    5. AI + 压铸方向

    研究主题一种基于机器学习的锌合金压铸质量预测方法。
    输入参数模温、料温、压射速度、保压压力。
    输出结果尺寸超差风险、气孔风险、变形风险。
    布局方式适合发明专利 + 软件著作权组合申请。

    6. 在线检测方向

    研究主题压铸件自动尺寸检测系统。
    创新点CCD视觉、激光扫描、自动判定NG。
    自动化流程压铸 -> 检测 -> 分选,并可结合机械手实现全自动流程。
    专利价值结合夹具、算法、数据反馈和模具补偿后,非常容易形成专利组合。

    7. 表面处理前处理方向

    行业痛点锌合金电镀起泡、麻点和针孔一直是行业难题。
    研究方向一种降低锌合金压铸件电镀起泡率的方法。
    核心措施模具排气结构、表层致密化工艺、微喷丸处理。
    应用价值适合电镀件、装饰件和高外观要求产品。

    8. 消费电子领域专利

    适用产品智能门锁、摄像头、AR/VR、手机周边。
    案例题目一种用于智能门锁的高精度锌合金锁体压铸结构。
    创新点防变形加强筋、自动定位基准面、免机加工装配孔。
    商业价值直接针对产品开发的专利更容易转化为实际产品价值。

    最推荐的三个方向

    方向1锌合金压铸件配合尺寸自动补偿方法。
    方向2高精度锌合金压铸模具可调补偿结构。
    方向3基于在线检测的锌合金压铸尺寸闭环控制系统。
    组合建议形成1件发明专利(方法)+ 1件发明专利(系统)+ 2-3件实用新型(模具结构)的专利组合,直接对应优化尺寸公差和解决配合尺寸质量问题的业务场景。

    需要压铸DFM或专利型工程资料支持?

    请发送图纸、关键尺寸、公差要求、材料牌号、表面处理和检测计划。XSD 可协助整理DFM评审、模具改善方案和专利型技术文档。

    发送询盘
  • Vehicle Key and Digital Key Patent Portfolio: UWB, AI Risk Control and Programming Devices

    Vehicle Key Patent Strategy

    Vehicle Key and Digital Key Patent Portfolio: UWB, AI Risk Control and Programming Devices

    A future-facing patent roadmap for vehicle keys, digital keys, phone keys and key-programming devices, focused on anti-relay security, AI risk control and cloud authorization.

    XSD Precision2026-07-07

    Patent Strategy Positioning

    For vehicle key, digital key and key-programming equipment projects, stronger patents should avoid crowded topics such as ordinary key matching workflows or generic remote generation. The next 5-10 years are more likely to focus on UWB, phone keys, cloud authorization, anti-attack security and AI diagnostics.

    Recommended focusAI risk-control digital key + UWB distance verification + temporary authorization sharing key.
    Product scopeVehicle keys, digital keys, phone keys, wearable keys and key-programming devices similar to Autel or Xhorse product lines.
    Planning noteThis is an engineering and patent-planning article, not a legal novelty or freedom-to-operate opinion.

    Direction 1: Anti-Relay Attack

    Industry pain pointTraditional PEPS systems are vulnerable to relay attacks, and even UWB systems still need stronger reliability and attack-surface control.
    Patent point 1Multi-source digital key distance verification using UWB, BLE, phone inertial sensors and in-vehicle radar.
    Patent title exampleA vehicle digital key distance verification method based on multi-sensor fusion.
    Patent point 2Behavior-feature key authentication based on approach speed, walking trajectory, phone posture and user habits.
    Patent valueVery high; security and reliability are becoming more important than simply unlocking a vehicle.

    Direction 2: AI Digital Key Risk Control

    Industry pain pointA digital key should identify abnormal usage, not only verify that a device is nearby.
    Patent directionAI abnormal key recognition system.
    ImplementationLearn user boarding time, parking locations and door-opening behavior; when abnormal behavior appears, downgrade permission or trigger secondary authentication.
    Patent title exampleA vehicle key risk assessment system based on machine learning.

    Direction 3: Digital Key Sharing

    Temporary digital keyOwner sets time limit, geofence and mileage limit; the key automatically expires after the authorized condition ends.
    Patent title exampleA digital vehicle key authorization method with time and location constraints.
    Family permission managementParents, children and employees receive different permissions, such as daytime-only driving or speed-limit rules.
    Business valueHigh for shared mobility, rental vehicles, fleet vehicles and family car management.

    Direction 4: Key Programming Device

    Industry pain pointLocksmiths and service technicians still manually select vehicle models and programming paths.
    Patent directionAI vehicle recognition and automatic key programming.
    ImplementationDevice identifies VIN, ECU and gateway fingerprints, then automatically generates the programming workflow.
    Patent title exampleAn automatic key programming method based on vehicle fingerprint recognition.
    Cloud databaseA cloud vehicle knowledge base can automatically match programming strategies and support a SaaS service model.

    Direction 5: Phone Key Fault Tolerance

    Industry pain pointUsers expect a phone key to behave like a physical key, even when battery, Bluetooth or background-app state is imperfect.
    Patent directionPassive and fault-tolerant digital key.
    ImplementationNFC backup + BLE wake-up + UWB positioning with three-layer switching logic.
    Wearable keyApple Watch, smart watches and smart rings can become additional key carriers.

    Direction 6: New Energy Vehicle Key

    Charging authentication keyWhen the owner approaches a charging pile, the key can support identity authentication, payment authorization and charging start.
    Battery safety-linked keyWhen battery abnormality or maintenance mode is detected, the digital key permission can be restricted automatically.
    Patent valueHigh; EV-specific key scenarios are less crowded than traditional key shell or matching-device topics.

    Priority Comparison

    Anti-relay attackTechnical difficulty: high; patent value: very high; commercial value: very high.
    Digital key sharingTechnical difficulty: low-medium; patent value: high; commercial value: very high.
    AI key risk controlTechnical difficulty: high; patent value: very high; commercial value: very high.
    Automatic key programmingTechnical difficulty: medium; patent value: high; commercial value: high.
    Phone key fault toleranceTechnical difficulty: medium; patent value: very high; commercial value: very high.
    Wearable keyTechnical difficulty: low-medium; patent value: medium; commercial value: medium.
    Charging authentication keyTechnical difficulty: high; patent value: very high; commercial value: high.

    Recommended Portfolio

    Core invention 1AI risk-control digital key method.
    Core invention 2UWB multi-source distance verification method.
    Core invention 3Temporary shared digital key authorization method.
    Supporting inventionVehicle-fingerprint automatic key programming method.
    Supporting inventionPhone key NFC/BLE/UWB fault-tolerant switching method.
    Best entryAI risk control + UWB verification + temporary authorization, because these directions have clear market demand and stronger patent value than traditional key matching devices.

    Planning a vehicle key or digital key patent project?

    Send the target product, vehicle access scenario, UWB/BLE/NFC architecture, cloud authorization workflow and security requirements. XSD can help structure technical documents and engineering review materials.

    Send Inquiry

    车钥匙与数字钥匙专利布局

    车钥匙与数字钥匙专利布局:UWB抗中继、AI风控与钥匙编程设备

    面向车钥匙、数字钥匙、手机钥匙和钥匙编程设备的未来专利布局,重点关注抗中继攻击、AI风控、云授权和手机钥匙容错。

    XSD Precision2026-07-07

    专利策略定位

    如果目标是申请车钥匙、数字钥匙、钥匙编程设备相关专利,不建议继续投入已经拥挤的普通钥匙匹配流程或普通遥控器生成,而应面向未来5-10年的方向:UWB、手机钥匙、云授权、安全防攻击和AI诊断。

    推荐重点AI风控数字钥匙 + UWB距离验证 + 临时授权共享钥匙。
    产品范围车钥匙、数字钥匙、手机钥匙、穿戴设备钥匙,以及类似道通/Xhorse产品线的钥匙编程设备。
    说明本文为工程师视角的研发和专利布局建议,不等同于正式新颖性检索或FTO法律意见。

    方向一:抗中继攻击

    行业痛点传统PEPS无钥匙进入容易受到Relay Attack信号中继攻击,即使UWB系统也仍需要提升可靠性和攻击面控制。
    专利点1多源位置验证数字钥匙,融合UWB、BLE、手机惯性传感器和车载雷达,形成动态可信距离判断。
    专利名称示例一种基于多传感器融合的车辆数字钥匙距离验证方法。
    专利点2行为特征钥匙认证,结合接近速度、行走轨迹、手机姿态和用户习惯形成动态身份认证。
    专利价值★★★★★,未来竞争重点会从能否开车转向安全性和稳定性。

    方向二:AI数字钥匙

    行业痛点数字钥匙不应只判断设备是否在附近,还需要识别异常使用场景。
    专利方向AI异常钥匙识别系统。
    实现逻辑系统学习用户上车时间、停车地点和开门方式;出现异常时自动降级权限或触发二次认证。
    专利名称基于机器学习的车辆钥匙风险评估系统。

    方向三:数字钥匙共享

    临时数字钥匙车主可设置时间限制、地理围栏和里程限制,到期后自动失效。
    专利名称示例一种具有时空约束条件的数字车钥匙授权方法。
    家庭成员权限管理父母、子女、员工获得不同权限,例如子女只能白天开车或限速120km/h。
    商业价值适用于共享汽车、租赁车辆、企业车队和家庭用车。

    方向四:车钥匙编程设备

    行业痛点锁匠和维修技师仍需要手动选择车型和编程路径。
    专利方向AI车型识别与自动编程。
    实现逻辑设备自动识别VIN、ECU和Gateway车辆指纹,并自动生成钥匙编程流程。
    专利名称一种基于车辆指纹识别的自动钥匙编程方法。
    云端钥匙数据库建立云端车型知识库和自动匹配编程策略,形成SaaS模式。

    方向五:手机钥匙

    行业痛点用户希望手机像传统钥匙一样工作,但手机没电、蓝牙关闭或App后台被杀会影响体验。
    专利方向无感数字钥匙与容错切换机制。
    实现逻辑NFC备用 + BLE唤醒 + UWB定位,形成三层切换机制。
    穿戴设备钥匙支持Apple Watch、智能手表和智能戒指作为钥匙载体。

    方向六:新能源汽车专属钥匙

    充电身份认证钥匙车主靠近充电桩后,自动进行身份认证、支付授权和充电启动。
    电池安全联动钥匙当检测到电池异常或维修模式时,自动限制数字钥匙权限。
    专利价值★★★★★,新能源车场景相比传统钥匙壳和匹配设备更有空白点。

    优先级对比

    抗中继攻击技术难度:★★★★;专利价值:★★★★★;商业价值:★★★★★。
    数字钥匙共享技术难度:★★;专利价值:★★★★;商业价值:★★★★★。
    AI钥匙风控技术难度:★★★★;专利价值:★★★★★;商业价值:★★★★★。
    自动钥匙编程技术难度:★★★;专利价值:★★★★;商业价值:★★★★。
    手机钥匙容错技术难度:★★★;专利价值:★★★★★;商业价值:★★★★★。
    穿戴设备钥匙技术难度:★★;专利价值:★★★;商业价值:★★★。
    充电认证钥匙技术难度:★★★★;专利价值:★★★★★;商业价值:★★★★。

    推荐专利组合

    核心发明1AI风控数字钥匙方法。
    核心发明2UWB多源距离验证方法。
    核心发明3临时授权共享数字钥匙方法。
    配套发明基于车辆指纹识别的自动钥匙编程方法。
    配套发明手机钥匙NFC/BLE/UWB容错切换方法。
    最佳切入口AI风控 + UWB距离验证 + 临时授权共享钥匙,市场需求明确、增长快,也比传统钥匙匹配设备更容易形成高价值专利组合。

    需要车钥匙或数字钥匙专利资料支持?

    请发送目标产品、车辆访问场景、UWB/BLE/NFC架构、云端授权流程和安全要求。XSD 可协助整理技术文档、研发资料和工程评审材料。

    发送询盘
  • XSD TPMS Invention Patent Portfolio: VIN Programming, BLE Recognition and AI Relearn

    TPMS Patent Strategy

    XSD TPMS Invention Patent Portfolio: VIN Programming, BLE Recognition and AI Relearn

    A patent portfolio roadmap for TPMS sensor companies focused on automatic programming, Tesla BLE service workflows, cloud vehicle coverage data and installation quality assessment.

    XSD Precision2026-07-07

    Patent Strategy Positioning

    For XSD Precision’s TPMS direction, stronger invention patents should start from industry pain points rather than simple product appearance or structural changes. This preliminary planning is for R&D and documentation strategy only; formal patent filing still requires novelty search, claim drafting and legal review.

    Business focusUniversal TPMS sensors, Tesla BLE sensors, TPMS programming tools, European and North American aftermarket channels and XSD Precision brand building.
    Recommended routeBuild software-driven invention patents around programming automation, vehicle recognition, cloud data, relearn success rate and installation verification.
    Avoided routeDo not rely mainly on simple exterior design, generic sensor shell structure or ordinary accessory structures.

    Direction 1: AI Automatic Programming

    Industry pain pointTechnicians usually select brand, model, year, protocol and programming mode manually, which creates selection errors.
    Patent topicA TPMS automatic programming method based on VIN.
    Implementation logicScan VIN -> cloud parsing -> automatic protocol matching -> write data into sensor.
    Market valueVery high; this is a core workflow improvement for TPMS programming tools.

    Direction 2: BLE Automatic Vehicle Recognition

    Industry pain pointTesla BLE TPMS service often still requires manual selection of model, year and BLE protocol.
    Patent topicA vehicle automatic recognition method based on BLE broadcast characteristics.
    Implementation logicReceive vehicle BLE signal -> analyze broadcast packet -> identify vehicle model -> automatically select protocol.
    Market valueVery high for Tesla BLE sensor programs and future BLE TPMS service workflows.

    Direction 3: Installation Success Rate Prediction

    Industry pain pointBefore service, technicians often do not know whether a specific vehicle can complete relearn successfully in one attempt.
    Patent topicA TPMS relearn success rate prediction method.
    Implementation logicVehicle model -> historical cases -> AI analysis -> recommend best relearn workflow.
    Market valueVery high; this is a good software-invention topic and can be paired with a case-analysis system.

    Direction 4: Cloud Vehicle Coverage Database

    Industry pain pointNew vehicle coverage changes quickly, and offline tool databases can become outdated.
    Patent topicA TPMS vehicle coverage database update system based on cloud crowdsourcing.
    Implementation logicShop uploads case -> cloud verifies data -> database updates -> devices synchronize.
    Market valueVery high; the database can become a long-term platform barrier.

    Direction 5: BLE + 433 Multi-Protocol Sensor

    Industry pain pointThe aftermarket may need 315MHz, 433MHz and BLE TPMS technologies to coexist.
    Patent topicA multi-protocol tire pressure sensor and switching method.
    Implementation logicAutomatically identify service environment -> select or switch the proper protocol.
    Market valueHigh; suitable for universal sensor product planning.

    Direction 6: Long-Life Battery Control

    Industry pain pointSensor battery life limits replacement cycles and customer experience.
    Patent topicA TPMS low-power control method based on vehicle usage habits.
    Implementation logicParking -> deep sleep; driving -> dynamic wake-up; service event -> active reporting.
    TargetExtend service life from about 7 years toward 10 years or more, depending on hardware and field conditions.

    Direction 7: Installation Quality Assessment

    Industry pain pointTire shops need a fast way to confirm whether TPMS installation, programming and relearn were successful.
    Patent topicAn automatic TPMS installation quality assessment method.
    Implementation logicAfter installation, automatically output signal strength, battery status, relearn status and service report.
    Market valueVery high; easy to commercialize for tire shops and service networks.

    Direction 8: Anti-Cloning Identity Authentication

    Industry pain pointOEM and higher-security markets may require stronger protection against unauthorized sensor copying.
    Patent topicA TPMS identity authentication method.
    Implementation logicUnique identity code + encrypted authentication + tool-side validation.
    Market valueHigh; more suitable for OEM cooperation and secure sensor programs.

    Recommended XSD Patent Portfolio

    Invention 1VIN automatic programming system.
    Invention 2BLE automatic vehicle recognition system.
    Invention 3AI TPMS relearn recommendation system.
    Invention 4Cloud vehicle coverage database update system.
    Invention 5TPMS installation quality inspection system.
    Supporting utility modelsSensor structure, valve stem structure and antenna structure.

    Patent Value Tiers for XSD TPMS Brand

    Tier 1: BLE automatic recognition programmingPatent name example: TPMS automatic recognition and programming method based on BLE broadcast characteristics. It reads vehicle BLE features, identifies the vehicle model, selects the protocol and writes the sensor automatically. Value: very high.
    Tier 1: Cloud vehicle database updatePatent name example: dynamic cloud update method for TPMS vehicle coverage database. Shop cases are uploaded, analyzed in the cloud, converted into database updates and synchronized to terminal devices. Value: very high.
    Tier 1: AI Relearn recommendationPatent name example: TPMS relearn workflow recommendation method based on historical cases. It reduces relearn failure by recommending the best workflow for a specific vehicle. Value: very high.
    Tier 2: Tesla BLE compatible sensor architecturePatent name example: tire pressure monitoring sensor compatible with multiple generations of BLE protocols. Firmware can dynamically switch to support Tesla, Rivian, Lucid and future BLE platforms. Value: high.
    Tier 2: Dual-frequency auto switchingPatent name example: 315MHz/433MHz automatic recognition and transmission method. The sensor identifies region or service environment and switches frequency to reduce SKU complexity. Value: high.
    Tier 2: Low-power algorithmPatent name example: TPMS sensor sleep and wake-up control method. The target is to extend battery life from about 7 years toward 10 years. Value: high.
    Tier 3: OTA-upgrade TPMSPatent name example: TPMS system supporting wireless firmware upgrade through phone app and sensor-side upgrade logic. Value: high and future-oriented.
    Tier 3: TPMS installation quality detectionPatent name example: automatic TPMS installation status detection method. It checks signal strength, battery state and relearn success rate after installation. Value: high for tire shops.
    Tier 4: Sensor structure and anti-cloningSensor, valve, waterproof, antenna and battery-fixing structures help defend against copying; TPMS identity authentication and anti-cloning methods are more suitable for future OEM programs.

    Three-Year IP Layout

    Invention patentsBLE automatic recognition programming, AI Relearn recommendation, cloud database update, OTA-upgrade TPMS and dual-frequency automatic switching.
    Utility modelsSensor structure, valve structure, waterproof structure, antenna structure and battery fixing structure.
    Software copyrightsXSD TPMS Studio, XSD Vehicle Coverage Database, XSD BLE Programmer and XSD Cloud Platform.
    Priority investmentBLE automatic recognition programming + AI Relearn recommendation + cloud vehicle database, because these directions can create differentiation against Autel, Launch, ATEQ and similar brands.

    Budget-Controlled Filing Package

    Suggested budget bandRMB 50,000-100,000 as a practical early-stage planning range, depending on filing regions and agency scope.
    Core package1 core invention patent + 3 utility models + 2 software copyrights.
    Best core inventionVIN automatic programming or AI relearn recommendation, because both connect directly to TPMS tool workflow and software copyright materials.
    Enterprise valueThis combination can support technology SME records, high-tech enterprise preparation and XSD Precision brand IP accumulation.

    Planning TPMS software, sensor or tool patents?

    Send your sensor roadmap, programming workflow, BLE plan, vehicle coverage data and installation service process. XSD can help structure technical documents and engineering review materials.

    Send Inquiry

    TPMS发明专利布局

    XSD TPMS发明专利布局:VIN自动编程、BLE识别与AI Relearn推荐

    围绕通用胎压传感器、Tesla BLE Sensor、TPMS编程工具和欧美售后市场,构建软件驱动型发明专利组合。

    XSD Precision2026-07-07

    专利策略定位

    结合 XSD Precision 当前的 TPMS Sensor、Tesla BLE Sensor、TPMS编程工具、欧美售后市场和品牌建设方向,建议不要从简单产品结构出发申请专利,而要从行业痛点出发,布局更有价值的发明专利。以下为研发和知识产权规划建议,正式申请仍需做新颖性检索、权利要求撰写和法律审查。

    业务方向通用胎压传感器、Tesla BLE Sensor、TPMS编程工具、欧美售后渠道和XSD Precision品牌建设。
    推荐路线围绕自动编程、车辆识别、云数据库、学习成功率预测和安装质量检测,形成软件驱动型发明专利组合。
    不建议路线不建议主要依赖普通外观、简单Sensor壳体结构或一般配件结构作为核心专利。

    方向一:AI自动编程

    行业痛点目前技师通常需要手动选择品牌、车型、年款、协议和编程模式,容易选错。
    专利方向一种基于VIN的TPMS自动编程方法。
    实现逻辑扫描VIN -> 云端解析 -> 自动匹配协议 -> 自动写入Sensor。
    市场价值★★★★★,适合作为TPMS编程工具的核心发明专利。

    方向二:BLE自动识别

    行业痛点Tesla BLE TPMS服务仍经常需要人工选择Tesla车型、年款和BLE协议。
    专利方向一种基于BLE广播特征的车辆自动识别方法。
    实现逻辑接收车辆BLE信号 -> 分析广播包 -> 识别车型 -> 自动选择协议。
    市场价值★★★★★,适合Tesla BLE Sensor和未来BLE TPMS服务流程。

    方向三:安装成功率预测

    行业痛点技师在服务前往往不知道某个车型能否一次学习成功。
    专利方向一种TPMS学习成功率预测方法。
    实现逻辑车型 -> 历史案例 -> AI分析 -> 推荐最佳Relearn流程。
    市场价值★★★★★,很适合写成软件发明,并与案例分析系统配套。

    方向四:云数据库

    行业痛点新车型更新很快,离线设备数据库容易过时。
    专利方向一种基于云端众包的TPMS车型数据库更新系统。
    实现逻辑门店上传案例 -> 云端验证 -> 自动更新数据库 -> 同步设备。
    市场价值★★★★★,车型数据库有机会成为长期平台壁垒。

    方向五:BLE+433双协议Sensor

    行业痛点未来售后市场中315MHz、433MHz和BLE可能长期并存。
    专利方向一种多协议胎压传感器及切换方法。
    实现逻辑自动识别使用环境 -> 选择或切换对应协议。
    市场价值★★★★☆,适合通用Sensor产品路线。

    方向六:超长寿命电池

    行业痛点Sensor电池寿命直接影响替换周期和客户体验。
    专利方向一种基于车辆使用习惯的TPMS低功耗控制方法。
    实现逻辑停车 -> 深度休眠;行驶 -> 动态唤醒;服务事件 -> 主动上报。
    目标在硬件和实际工况允许的前提下,将寿命从约7年提升到10年以上。

    方向七:安装检测系统

    行业痛点轮胎店需要快速确认TPMS安装、编程和学习是否成功。
    专利方向一种TPMS安装质量自动评估方法。
    实现逻辑安装完成后,自动输出信号强度、电池状态、学习状态和服务报告。
    市场价值★★★★★,非常适合轮胎店和服务网络商业化。

    方向八:防克隆技术

    行业痛点未来OEM市场和高安全场景需要避免非法复制Sensor身份。
    专利方向一种TPMS身份认证方法。
    实现逻辑唯一身份码 + 加密认证 + 工具端验证。
    市场价值★★★★☆,更适合OEM合作和安全型Sensor项目。

    最适合XSD Precision的首批专利组合

    发明1VIN自动编程系统。
    发明2BLE自动识别系统。
    发明3AI Relearn推荐系统。
    发明4云数据库更新系统。
    发明5TPMS安装质量检测系统。
    配套实用新型Sensor结构、阀嘴结构、天线结构。

    XSD TPMS品牌专利价值梯队

    第一梯队:BLE自动识别车型编程方法发明名称示例:一种基于BLE广播特征的TPMS自动识别与编程方法。读取车辆BLE特征,自动识别车型,自动选择协议并写入Sensor。价值:★★★★★。
    第一梯队:云端车型数据库更新系统发明名称示例:一种TPMS车型数据库云端动态更新方法。门店上传案例,云端分析,数据库自动更新并同步终端设备。价值:★★★★★。
    第一梯队:AI Relearn推荐系统发明名称示例:一种基于历史案例的TPMS学习流程推荐方法。针对具体车型自动推荐最佳Relearn流程,降低学习失败率。价值:★★★★★。
    第二梯队:Tesla BLE兼容Sensor架构发明名称示例:一种兼容多代BLE协议的胎压监测传感器。通过Firmware动态切换,支持Tesla、Rivian、Lucid和未来BLE平台。价值:★★★★☆。
    第二梯队:双频自动切换技术发明名称示例:一种315MHz/433MHz自动识别发射方法。自动识别区域并切换频段,减少SKU。价值:★★★★☆。
    第二梯队:低功耗算法发明名称示例:一种TPMS传感器休眠与唤醒控制方法。目标是将电池寿命从约7年提升到10年。价值:★★★★☆。
    第三梯队:OTA升级TPMS发明名称示例:一种支持无线升级的TPMS系统。通过手机APP与Sensor升级逻辑实现固件OTA。价值:★★★★☆。
    第三梯队:TPMS安装质量检测发明名称示例:一种TPMS安装状态自动检测方法。安装后自动判断信号强度、电池状态和Relearn成功率。价值:★★★★☆。
    第四梯队:Sensor结构与防克隆算法Sensor防漏气结构、防腐蚀阀嘴、可拆卸结构主要用于防抄袭;TPMS身份认证与防克隆方法更适合未来OEM市场。

    未来3年知识产权布局

    发明专利BLE自动识别编程、AI Relearn推荐、云数据库更新、OTA升级TPMS、双频自动切换。
    实用新型Sensor结构、Valve结构、防水结构、天线结构、电池固定结构。
    软件著作权XSD TPMS Studio、XSD Vehicle Coverage Database、XSD BLE Programmer、XSD Cloud Platform。
    优先投入BLE自动识别编程 + AI Relearn推荐 + 云车型数据库,因为这些方向目前行业公开布局还不算拥挤,并且能直接形成与Autel、Launch、ATEQ等品牌差异化的核心竞争力。

    预算控制下的优先组合

    预算区间如果预算控制在5万-10万元人民币,可优先做投入产出比最高的基础组合。
    核心组合1个核心发明专利 + 3个实用新型 + 2个软件著作权。
    首选核心发明VIN自动编程或AI Relearn推荐,因为这两个方向直接连接TPMS编程工具流程和软著材料。
    企业价值该组合可支撑科技型中小企业、高新技术企业申报准备和XSD Precision品牌知识产权积累。

    需要TPMS软件、传感器或工具专利资料支持?

    请发送Sensor路线、编程流程、BLE方案、车型数据库和门店安装服务流程。XSD 可协助整理技术文档、研发资料和工程评审材料。

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  • TPMS Software Copyright Portfolio: IP Planning for High-Tech Enterprise Applications

  • Digital Car Key Authorization with Time and Location Constraints: R&D Project Proposal

    Intelligent Vehicle R&D

    Digital Car Key Authorization with Time and Location Constraints: R&D Project Proposal

    A project proposal template for a digital car key authorization platform using time constraints, geofencing, dynamic risk assessment and secure key management.

    XSD Precision2026-07-07

    Project Overview

    Project nameDigital car key authorization method and system with time and location constraints
    DepartmentR&D Center / Intelligent Automotive Business Unit
    Project cycle2026-X to 2027-X
    Project levelStrategic / key / general project, subject to internal review
    Target outputAuthorization rule engine, geofence decision module, dynamic authorization module and security control module

    Industry Background

    Vehicle access control is moving from mechanical keys to digital key systems based on mobile devices and connected vehicle platforms. Mainstream solutions commonly use NFC, Bluetooth Low Energy (BLE), and Ultra Wide Band (UWB) for authentication.

    • Existing authorization is often too coarse-grained.
    • Permission management can be static and simple.
    • Dynamic risk control is often missing.
    • Shared mobility, fleet, rental and temporary driver scenarios require more flexible rules.

    Target Scenarios

    Family shared vehicleParents authorize children to use a vehicle only within a specified time period and region.
    Enterprise fleetEmployees can use vehicles only during approved working hours or routes.
    Vehicle rentalThe renter receives vehicle access only within the rental term.
    Designated driver serviceOne-time temporary digital key authorization expires automatically after use.

    Technical Objectives

    • Time constraints: fixed time, recurring time and dynamic time windows.
    • Spatial constraints: circular geofence, polygon geofence and multi-layer geofence.
    • Dynamic authorization: real-time permission adjustment, risk scoring and temporary authorization.
    • Data security: end-to-end encryption, dynamic key mechanism and anti-replay protection.

    R&D Work Packages

    Topic 1Time-space authorization model: time constraints, spatial constraints and combined authorization rules; output authorization rule engine.
    Topic 2Geofence control algorithm: GPS positioning, BLE-assisted positioning and UWB precise positioning; output geofence decision module.
    Topic 3Dynamic authorization decision engine: user identity management, permission calculation and risk scoring; output dynamic authorization module.
    Topic 4Digital key security mechanism: key management, identity authentication and data encryption; output security control module.

    Technical Route

    User AppDigital Key Management PlatformTime Constraint Engine / Location Constraint Engine / Risk Assessment Engine / Authorization Decision EngineVehicle T-BOXDoor Controller

    Innovation Points

    • Time-location joint authorization: validates both time and location conditions before access is granted.
    • Dynamic permission adjustment: adjusts permission according to user status, vehicle status and risk level.
    • Multi-level geofence control: unlock, start and re-authorization permissions can use different geofence policies.
    • One-time digital key mechanism: temporary authorization automatically expires after completion.

    IP Planning

    Invention patent 1Digital car key authorization method with time and location constraints.
    Invention patent 2Digital key control method based on multi-level geofence.
    Invention patent 3Dynamic risk-assessment digital key authorization system.
    Software copyrightDigital Key Authorization Management Platform V1.0.

    Advanced Patent Mining Directions

    1. Dynamic time-space authorization engineMove beyond static rules such as 08:00-18:00 and a fixed city boundary. Authorization conditions should change according to user identity, vehicle state, traffic state and risk level. Example rules include full access on normal workdays, no start after 23:00, secondary authentication in remote areas and no re-authorization when battery level is below 15%. Patent focus: digital key authorization decision method based on dynamic risk factors.
    2. Multi-layer geofence authorizationUpgrade from a single geofence to layered zones and permission matrices. Level 1 may allow unlock and start, level 2 may allow unlock but deny start, and level 3 may only allow vehicle viewing. Patent focus: vehicle access control method based on multi-layer geofence.
    3. Route-constrained digital keyMost systems restrict location, but fewer restrict a route. The system can authorize a route from a company location to a customer site; if the vehicle deviates, it can downgrade permission and send an alert. Patent focus: digital key authorization control method based on a preset driving trajectory.
    4. One-time digital keyA one-time key can be valid for a single use, expire after reaching a specified location, or expire after one vehicle start. It is suitable for valet parking, car washing, maintenance and logistics handover. Patent focus: time-space limited digital key generation method with a single-start feature.
    5. AI risk-scoring authorizationBuild user profiles, driving habits and historical location features, then calculate a real-time risk score. Low risk can be automatically authorized, medium risk can require phone confirmation, and high risk can block vehicle start. Patent focus: vehicle digital key dynamic authorization method based on a risk scoring model.
    6. Multi-user shared authorization chainSupport family and enterprise sharing with hierarchical delegation. For example, owner A authorizes spouse B and child C; B may re-authorize once, while C may not re-authorize. Patent focus: digital key management method supporting hierarchical re-authorization.
    7. Vehicle-state-linked authorizationCombine key permission with vehicle conditions such as abnormal battery temperature, maintenance mode, fault codes or low energy. The system can block start, limit speed or allow only maintenance personnel to start. Patent focus: digital key dynamic authorization method based on vehicle operating state.
    8. UWB precise distance authorizationUWB can support not only proximity judgment, but also position angle, movement direction and approach speed. For example, unlocking can be allowed only when the user approaches from the driver's side. Patent focus: vehicle key authorization method based on UWB spatial position features.

    Recommended Patent Portfolio

    Core patentDigital car key authorization method with time and location constraints.
    Dependent patent 1Authorization method based on dynamic risk scoring.
    Dependent patent 2Authorization method based on route constraints.
    Dependent patent 3Authorization method based on vehicle state.
    Dependent patent 4Authorization method based on UWB spatial positioning.
    Dependent patent 5Shared digital key method based on hierarchical re-authorization.
    Dependent patent 6Authorization method based on one-time digital key generation.
    Layout valueThis structure forms a digital key permission management platform patent family, rather than a single functional patent, and can better cover shared mobility, enterprise fleets, rental vehicles and new energy vehicles.

    Project Schedule and Risk Control

    Month 1Requirement analysis and technical research.
    Month 2Architecture design and project solution design.
    Months 3-6Core algorithm and platform development.
    Months 7-8System integration and joint testing.
    Month 9Scenario verification and optimization.
    Month 10Patent application and IP layout.
    Key risksPositioning error, network exception, security attack and patent conflict; mitigation includes UWB fusion positioning, local cache, dynamic key mechanism and early FTO search.

    Need automotive electronics R&D support?

    Send project background, target vehicle platform, communication method, security requirement and IP planning scope. XSD can help structure technical documents and engineering review materials.

    Send Inquiry

    智能汽车研发立项

    具有时空约束条件的数字车钥匙授权方法研发立项书

    适用于企业研发立项、专利项目立项、高新技术企业研发项目管理和政府研发补助申报的数字车钥匙研发立项模板。

    XSD Precision2026-07-07

    项目基本信息

    项目名称一种具有时空约束条件的数字车钥匙授权方法及系统研发
    项目编号内部填写
    立项部门研发中心 / 智能汽车事业部
    项目负责人内部填写
    项目周期2026年X月-2027年X月
    项目等级战略项目 / 重点项目 / 一般项目,按企业内部评审确定

    项目背景

    随着汽车数字钥匙技术发展,车辆访问控制正逐步由传统机械钥匙向智能终端迁移。现有数字钥匙方案主要采用 NFC、BLE 和 UWB 等通信技术实现车辆身份认证。

    • 授权粒度较粗,难以按时间、位置和风险动态控制。
    • 权限管理相对简单,难以覆盖共享出行、租赁、企业车队等场景。
    • 缺乏动态风险评估能力,无法根据用户状态和车辆状态实时调整权限。
    • 安全防护仍需覆盖端到端加密、动态密钥和防重放攻击。

    市场需求与应用场景

    家庭共享车辆父母授权子女在指定时间段、指定区域内使用车辆。
    企业车队员工仅允许在工作时间、授权区域或指定任务范围内使用车辆。
    汽车租赁租车用户仅在租赁期限内获得车辆使用权限。
    代驾服务支持一次性临时授权,服务完成后自动失效。

    项目目标

    总体目标是研发一种具备时空约束能力的数字车钥匙授权平台,实现车辆访问权限的动态控制。

    • 时间约束:支持固定时间、周期时间和动态时间窗口。
    • 空间约束:支持圆形电子围栏、多边形电子围栏和多层地理围栏。
    • 动态授权:支持实时权限调整、风险等级评估和临时授权。
    • 数据安全:实现端到端加密、动态密钥机制和防重放攻击。

    研发内容

    课题一数字钥匙时空授权模型研究:时间约束模型、空间约束模型和组合授权规则;输出授权规则引擎。
    课题二电子围栏控制算法研究:GPS定位、BLE辅助定位和UWB精确定位;输出地理围栏判定模块。
    课题三动态授权决策引擎:用户身份管理、权限计算模型和风险评分机制;输出动态授权模块。
    课题四数字钥匙安全机制:密钥管理、身份认证和数据加密;输出安全控制模块。

    技术路线

    用户APP数字钥匙管理平台时间约束引擎 / 空间约束引擎 / 风险评估引擎 / 授权决策引擎车辆T-BOX车门控制器

    创新点

    • 时空联合授权机制:实现时间 + 位置联合验证。
    • 动态权限调整机制:根据用户状态、车辆状态和风险等级实时调整权限。
    • 多级电子围栏控制:支持启动权限、解锁权限和转授权权限差异化控制。
    • 一次性数字钥匙机制:授权完成后自动失效,适合代驾、租赁和临时共享场景。

    知识产权规划

    发明专利1一种具有时空约束条件的数字车钥匙授权方法。
    发明专利2一种基于多级电子围栏的数字钥匙控制方法。
    发明专利3一种动态风险评估数字钥匙授权系统。
    软件著作权数字钥匙授权管理平台V1.0。
    专利挖掘方向轨迹约束、车辆状态、风险评分、UWB精准定位和层级转授权。

    高价值专利挖掘方向

    1. 动态时空授权引擎从静态规则升级为动态时空授权模型。授权条件可根据用户身份、车辆状态、交通状态和风险等级实时变化。例如正常工作日开放全权限,深夜23:00后禁止启动,偏远区域要求二次认证,电量低于15%时禁止转授权。专利点:基于动态风险因子的数字钥匙授权决策方法。
    2. 多层地理围栏授权从单一电子围栏升级为分级地理围栏和权限矩阵。一级区域允许解锁和启动,二级区域允许解锁但不允许启动,三级区域仅允许查看车辆信息。专利点:基于多层电子围栏的车辆访问控制方法。
    3. 轨迹约束数字钥匙不仅限制地点,还限制授权路线。例如从公司到客户现场允许启动;如果车辆偏离授权路线,系统自动降级权限并发出警报。专利点:基于预设行驶轨迹的数字钥匙授权控制方法。
    4. 一次性数字钥匙数字钥匙具备单次使用、到达指定地点自动失效或启动一次后失效的特征,适合代客泊车、洗车、保养和物流交车。专利点:具有单次启动特征的时空受限数字钥匙生成方法。
    5. AI风险评分授权系统建立用户画像、驾驶习惯和历史位置特征,实时计算Risk Score。低风险自动授权,中风险要求手机确认,高风险禁止启动。专利点:基于风险评分模型的车辆数字钥匙动态授权方法。
    6. 多人共享授权链解决家庭用车和企业授权问题。车主A可授权配偶B和子女C,B可以再授权一次,C不可转授权,形成可追溯的授权链。专利点:支持层级转授权的数字钥匙管理方法。
    7. 车况联动授权把钥匙权限与车辆状态联动,例如电池温度异常禁止启动,保养模式限制速度,故障码出现时仅允许维修人员启动。专利点:基于车辆运行状态的数字钥匙动态授权方法。
    8. UWB精准距离授权UWB不仅判断是否在附近,还可结合位置角度、移动方向和接近速度。例如只有从驾驶员侧接近才允许解锁。专利点:基于UWB空间位置特征的车辆钥匙授权方法。

    推荐专利族布局

    核心专利一种具有时空约束条件的数字车钥匙授权方法。
    从属专利1基于动态风险评分的授权方法。
    从属专利2基于轨迹约束的授权方法。
    从属专利3基于车辆状态的授权方法。
    从属专利4基于UWB空间定位的授权方法。
    从属专利5基于层级转授权的共享方法。
    从属专利6基于一次性密钥的授权方法。
    布局价值形成完整的数字钥匙权限管理平台专利组合,而不是单一功能点,更容易覆盖共享汽车、企业车队、租赁车辆和新能源车等应用场景。

    预期成果

    • 技术成果:核心算法1套、管理平台1套、APP客户端1套、云服务平台1套。
    • 知识产权成果:发明专利不少于3件,软件著作权不少于1件。
    • 商业场景:共享汽车、企业车队、租赁车辆和新能源汽车。

    项目计划与风险分析

    需求分析第1个月:技术调研与需求梳理。
    方案设计第2个月:系统架构与技术路线设计。
    核心研发第3-6个月:算法开发、规则引擎和安全模块研发。
    系统集成第7-8个月:APP、平台、T-BOX和控制器联调测试。
    验证优化第9个月:家庭共享、企业车队、租赁和代驾场景验证。
    专利申请第10个月:专利撰写、FTO检索和知识产权布局。
    主要风险定位误差、网络异常、安全攻击和专利冲突;可采用UWB融合定位、本地缓存、动态密钥和提前FTO检索应对。

    研发立项建议

    建议在立项初期同步开展专利布局,围绕时空约束、轨迹约束、车辆状态、风险评分、UWB精准定位和层级转授权形成组合专利,避免只有单一专利点。

    需要汽车电子研发资料支持?

    请发送项目背景、目标车型平台、通信方式、安全要求和知识产权规划范围。XSD 可协助整理技术文档、研发立项资料和工程评审材料。

    发送询盘
  • Is the XSD TPMS App Independently Developed or Third-Party?

    TPMS Resource

    Is the XSD TPMS App Independently Developed or Third-Party?

    TPMS Resource

    XSD Precision2026-06-19

    TPMS Resource

    XSD TPMS App is independently developed, so distributors and tire service buyers do not need to worry about third-party intellectual property issues.

    XSD TPMS software is independently developed, helping B2B buyers reduce intellectual property and supply continuity concerns.

    For TPMS sensor distributors, importers, and tire service networks, software ownership matters. A TPMS App is not only a support tool; it affects programming workflow, update speed, compatibility control, and long-term after-sales support.

    XSD TPMS App is independently developed by XSD. Buyers do not need to worry about third-party software ownership or intellectual property problems when building a long-term TPMS sensor supply program.

    Why Independent App Development Matters

    • Lower intellectual property risk for B2B buyers.
    • More direct control over software updates and feature improvements.
    • Better alignment with XSD TPMS sensors and programming workflow.
    • More stable long-term support for distributors and repair networks.

    What This Means for Buyers

    Independent software development gives XSD more control over the product ecosystem. When buyers need software improvements, vehicle coverage updates, or support for market-specific requirements, communication can be handled directly with the XSD team.

    FAQ

    Is the XSD TPMS App independently developed?

    Yes. The XSD TPMS App is independently developed by XSD.

    Do buyers need to worry about third-party intellectual property issues?

    No. Because the app is independently developed, buyers can reduce concerns about third-party IP issues in long-term sourcing.

    Related TPMS buying guides: Region-Free TPMS Sensors, Long-Life CR2050 TPMS Sensors, 98% Vehicle Coverage, Metal vs Rubber Valve Stem Selection, and TPMS Database Update Frequency.

    Related Guides

    Need TPMS or manufacturing support?

    Send OEM number, vehicle model, frequency, drawing, quantity and target market. XSD will route your request to the right team.

    Send Inquiry

    TPMS 资源中心

    XSD TPMS App 是自主开发还是第三方软件?

    XSD TPMS App 为自主开发,有助于经销商和轮胎服务买家降低第三方知识产权和长期维护风险。

    XSD Precision2026-06-19

    文章重点

    自主软件能力代表供应商可以控制功能迭代、数据更新、问题修复和客户支持节奏。

    买家需要关注什么

    • 自主开发降低第三方授权不确定性
    • 问题反馈可以更快进入开发流程
    • 有利于与自有 TPMS 传感器深度适配
    • B2B 买家应关注软件维护能力

    XSD Precision 的建议

    TPMS 供应商的软件能力,会直接影响渠道长期服务稳定性。

    如果你正在评估 TPMS 传感器、OE 替换项目、经销渠道或汽车精密制造合作,可以把目标市场、车型需求、数量、认证要求和现有问题发给我们,我们会按应用场景协助判断更合适的方案。

    需要 TPMS 或汽车精密制造方案?

    请发送 OEM 编号、车型、频率、图纸、数量和目标市场。XSD 会根据应用场景安排对应团队评估。

    发送询盘