新科技在智慧汽车的应用（2024-2025）

一、在智慧座舱领域，智慧玻璃显示、3D显示、全景显示、隐形显示等新显示技术正逐步搭载在汽车上。

（1）智慧玻璃的创新应用

目前汽车玻璃的智慧化主要体现在调光、照明、显示器、光伏发电和通讯等方面。主要包括：

控光玻璃包括电致变色技术、电子控制技术、浮离子技术等。蔚来也推出了黑色、灰色等中性色彩的光线调节顶篷。

智慧显示器发光并显示动画和符号，实现人机互动。

光电玻璃内含太阳能电池，如伟巴斯特推出的贯穿后窗和车顶的一体化光电系统。

内建天线和雷射雷达的玻璃体现了隐藏式设计。此外，5G天线内建玻璃可增强讯号100%，而采用玻璃的UWB解决方案可减少锚点并大幅降低成本。

（2）隐形显示器增强驾驶舱设计与智慧化

隐形显示器是利用液晶显示器作为光源来显示讯息，透过使光源穿过附在玻璃盖上的特殊半透明装饰材料，使其看起来 "隐形" 。在驾驶舱中，隐形显示器主要用于CID和隐形门显示器。

二、在智慧驾驶领域，千线雷射雷达、仿生摄影机、5D成像雷达等新型感测器及融合感测器不断涌现，提升AD/ADAS的感知能力。

（1）推出千线雷射雷达

在CES 2025上，禾赛科技与速腾聚创联合发布了点云更清晰的千线光达，满足高级自动驾驶所需的感知能力。千线光达有望提升光达在自动驾驶感测器中的 "地位" 。

（2）模拟视觉感光元件的仿生相机

仿生相机模仿生物体的视觉系统，通常用于获得更宽的视野或更深入的感知。先进的视觉系统有望应用于自动驾驶、无人机和机器人等领域，以提高影像准确性。现阶段，仿生相机基本上仍处于实验阶段。

三、在车身及底盘领域，3D列印、一体式压铸、数位化底盘等技术将进一步提升车辆的安全性和舒适性。

（1）3D列印将成为汽车造型设计的工具

在汽车产业，3D列印通常用于研发阶段的造型研究、设计验证、原型设计、零件试验、概念车、工装、检测工具、个人化客製化、包装验证和小批量备件，因为它无需製造模具。

宾士、BMW、Audi、捷豹、丰田、福特等世界知名主机厂在汽车研发阶段均广泛采用3D列印技术。

（2）透过数位底盘提高车辆控制性能

传统底盘的驱动、煞车、转向、悬吊等系统依靠机械连接和液压系统独立运行，而数位底盘则利用数位技术对底盘各个子系统进行整合和控制，使各系统更好地协调运作。 2024年，华为、上汽等多家主机厂及供应商推出数位底盘。

本报告提供中国的汽车产业调查分析，智慧驾驶座，智慧驾驶，身体·底盘，能源·电力等的领域的新技术的应用相关资讯。

目录

第1章 智慧驾驶座的新技术的应用

• 智慧眼镜的使用日益增多
• 其他有全景天篷的车型
• 汽车玻璃的创新轻量化材料
• 汽车玻璃油墨的创新应用
• 3D 显示器增强驾驶舱沉浸感
• 隐形显示技术提升驾驶舱设计与智慧化
• 全景展示
• AR 眼镜改善驾驶舱娱乐
• 汽车语音助理的人工智慧更新
• 健康驾驶舱的创新功能

第2章 智慧驾驶的新技术的应用

• 千线雷射雷达
• 可变焦雷射雷达量产并上市
• 新的 LiDAR 应用
• 新型 3D 雷射雷达
• 4D LiDAR 进一步增强侦测能力
• FMCW是LiDAR未来的发展方向
• 自动对焦相机正在开发中
• 扩大 RGB-IR 摄影机的应用范围
• 仿生相机启发视觉感光元件
• 整合感测器开始应用于驾驶舱监控和自动驾驶领域。
• 4D 成像雷达可支援 NOA 和 3 级以上自动驾驶
• 推出5D成像雷达
• 红外线热成像技术增强智慧驾驶
• 端到端基础设施模式成为自动驾驶关注重点
• 多模态基础模型提升自动驾驶的感知与决策能力

第3章 身体·底盘的新技术的应用

• 3D列印成为汽车造型设计的工具
• 5G RedCap 将提供轻量级通讯模组
• 5G-A 发展元年
• 6G的到来
• SparkLink 商业化阶段
• 原始设备製造商扩大卫星通讯布局
• 万兆乙太网路技术彻底改变了车辆通讯网络
• 变色体的创新应用
• 车身、内装和外饰更多使用环保材料
• 轻质材料提升车辆性能
• 冷却剂进入测试阶段
• 数位底盘提高车辆舒适度
• 发光的格栅提高了品牌知名度
• "隐形" 的智慧外观
• 智慧轮胎

第4章 能源·电力的新技术的应用

• 固态电池将在2026年后实现量产
• 锂离子电池的创新应用
• 氢燃料电池产业化进程加速
• 智慧电池预计将带来一场科技革命
• 其他新电池
• 增压系统的出现
• 超级增程技术射程将超过400公里

第5章 其他的领域的新技术的应用

• 低空市场蓬勃发展
• 人形机器人商业化进程正在加速
• 眼球追踪技术亮相，手机公司抢占先机
• 手机-IVI 互联发展成为手机-IVI 集成
• eSIM 卡将助力车辆实现国际通行

Application trends of emerging automotive technologies in 2024-2025

This report studies the corporate trends and new products of smart cockpit, smart driving, body & chassis and energy & power in 2024-2025, summarizes the representative emerging technologies and innovative applications, and discovers more than 50 industrial characteristics.

I. In the field of smart cockpits, emerging display technologies such as smart glass displays, 3D displays, panoramic displays, and invisible displays are gradually being introduced into vehicles.

1) Innovative applications of smart glass

Currently, the intelligence of automotive glass is mainly reflected in dimming, lighting and display, photovoltaics, and communications. Mainly including:

Dimming glass involves electrochromic technology, electronic control technology, suspended ion technology, etc. In addition, NIO has launched a dimmable canopy with basic neutral colors like black and gray.

Smart displays emit light and show animations or symbols to enable human-computer interaction.

Photovoltaic glass is equipped with solar cells, such as the integrated photovoltaic system launched by Webasto that runs through the rear windows and roof.

Glass with integrated antennas and LiDAR embodies a hidden design. In addition, glass with integrated 5G antennas enhances signals by 100%, while UWB solutions using glass can reduce anchor points and significantly cut costs.

2) Invisible displays enhance cockpit design and intelligence

Invisible displays use LCDs as light sources to display information, and allows the light source to pass through special translucent decorative materials attached to the glass cover to display "invisibly". In cockpits, invisible displays are mainly used in CIDs, invisible door displays and so on.

II. In the field of intelligent driving, novel sensors and fusion sensors such as thousand-line LiDAR, bionic cameras, and 5D imaging radars have emerged to improve the perception capabilities of AD/ADAS.

1) Launch of thousand-line LiDAR

At CES 2025, Hesai and RoboSense launched thousand-line LiDAR with clearer point cloud to meet the perception requirements of higher-level autonomous driving. Thousand-line LiDAR is expected to enhance LiDAR's "position" in autonomous driving sensors.

Case 1: Hesai AT1440

At CES 2025, Hesai unveiled its flagship product - AT1440 which is a 1,440-line LiDAR as the name suggests.

AT1440, equipped with Hesai's self-developed fourth-generation chip, adopts high-efficiency photosensitivity and ultra-high parallel processing technology with an angular resolution of 0.02°. It can output extremely high-definition image-level point cloud, more than 30 times higher than the current mainstream automotive LiDAR.

According to the official information, the lidar can even see small potholes on the ground.

Case 2: RoboSense EM4

At CES 2025, RoboSense exhibited the EM4 thousand-line LiDAR for the passenger car market.

The LiDAR has up to 1080 lines and a maximum detection distance of 600 meters. The detection distance can reach 300 meters at a reflectivity of 10%. The field of view is 120°X27°, the angular resolution is 0.050°X0.025°. It can produce images at 25.92 million points per second, which can accelerate the response of the intelligent driving system by 70%.

The new digital architecture and technology optimization enable EM4 to have higher detection capabilities for white vehicles, black tires, traffic cones, highly reflective road signs and other objects, as well as in rain and fog. For example, when facing a white car, the system can make an emergency avoidance or brake to a stop at a speed of 289km/h.

2) Bionic cameras inspire visual sensors

Bionic cameras mimic biological vision systems and are typically used to gain a wider field of view or deeper perception. Advanced vision systems are expected to be used in fields such as autonomous driving, UAVs, and robots to improve image accuracy. At this stage, bionic cameras are mainly in the experimental stage.

Case 1: HKUST's novel insect-like compound eye system

In May 2024, a team of engineers and robotics experts from the Hong Kong University of Science and Technology designed and built an ultra-wide field of view pinhole compound eye system based on an insect compound eye based on a hemispherical nanowire array.

The system combines 3D printing and high-performance photodetector technology to achieve ultra-wide field of view and accurate dynamic motion tracking by designing a unique pinhole array to simulate the arrangement of ommatidia in the insect compound eye system.

Case 2: GIST's computer vision technology based on feline eyes

In November 2024, the Gwangju Institute of Science and Technology (GIST) in South Korea unveiled a novel computer vision system inspired by feline eyes to improve the image clarity and focus of autonomous driving systems in various lighting conditions.

The new system features a slit-type elliptical aperture and patterned metal reflectors to improve object detection and recognition in a variety of lighting conditions.

The design effectively reduces light interference and improves light sensitivity, enabling detection of camouflaged objects in different lightning strikes.

III. In the field of body chassis, 3D printing, integrated die-casting, digital chassis and other technologies further improve vehicle safety and comfort.

1) 3D printing becomes a tool for vehicle styling design

In the automotive industry, since mold manufacturing can be eliminated, 3D printing is usually used in the R&D stage for styling review, design verification, prototyping, parts trial production, concept cars, tooling fixtures, inspection tools, personalized customization, packaging verification, small-batch spare parts, etc.

World-known OEMs such as Mercedes-Benz, BMW, Audi, Jaguar, Toyota, Ford, etc. have extensively adopted 3D printing technology in the research and development stage of automobiles.

Case: BMW uses 3D printing to reduce the weight of robot gripper elements by 20%-30%

In October 2024, BMW shed light on its use of 3D printing for customized robotic grippers at its Lightweight Construction and Technology Centre where gripper elements can weighs roughly 20%-30% less. The BMW Group produces more than 400,000 parts through 3D printing globally every year.

2) Digital chassis improves vehicle control performance

Traditional chassis drive, braking, steering, suspension and other systems rely on mechanical connections and hydraulic systems to operate independently, while digital chassis use digital technology to bring together the various subsystems of the chassis for control, which can better coordinate all systems. In 2024, many OEMs and suppliers such as Huawei and SAIC released digital chassis.

Case: SAIC Lizard Digital Chassis (available on IM L6)

The Lizard Digital Chassis developed by SAIC supports full-cycle OTA and digital iterations. Multiple system control modules such as the four-wheel steering system, electronic shock absorbers, air springs, and electric drives are integrated and controlled, freeing the hardware control strategy from suppliers and achieving rapid iteration through self-development and self-control. Through the coordinated management of the vehicle's three-axis and six-degree-of-freedom motion, joint adjustment and control of dynamic performance in all dimensions can be attained.

The Lizard Digital Chassis empowers IM L6 three capabilities:

Crab walking. The Lizard Digital Chassis features four-wheel steering, allowing the vehicle to "run rampant" like a crab and solve problems such as side parking.

Less deviation. On extreme low-adhesion roads such as roads covered by residual snow or rain, the Lizard Digital Chassis can reduce deviation by about 80% compared to its counterparts.

Emergency avoidance. In the case of highway emergency avoidance, the Lizard Digital Chassis can respond 30% faster than the traditional ESP system.

• IV. In the field of energy and power, smart batteries have achieved technological breakthroughs, and supercharging and super range extension systems have laned on vehicles.

1) Supercharging systems emerge

High-power supercharging facilities can charge batteries from 20% to 80% in 10 minutes. 2024 is the first year of China's "supercharging" development. While the country vigorously supports the construction of basic charging facilities, local governments are also actively promoting the construction of supercharging. Supercharging stations and models that support supercharging are emerging in large numbers at home and abroad.

Case 1: GAC Trumpchi launched a 4C supercharged plug-in hybrid model

At the end of 2024, GAC Trumpchi launched the E9, the first plug-in hybrid model equipped with 4C supercharging technology and the next-generation magazine battery for the first time. The next-generation magazine battery enables "ultra-fast charging" and can be recharged to 80% in just 8 minutes. According to actual measurements by staff at the Everest Supercharging Station (technically supported by Huawei), it only takes 7 minutes and 56 seconds to charge from 20% SOC to 80% SOC.

Case 2: Xpeng's next-generation S5 supercharging stations are available in four cities, supporting driving over 1 km in a second of charging

In September 2024, Xpeng announced the official launch of S5 supercharging stations in four cities: Shanghai, Tianjin, Zhengzhou, and Wuhan. The peak charging power of Xpeng's liquid-cooled S5 supercharging piles can reach 800kW, supporting driving over 1 km in a second of charging. With a maximum output current of 800A and a voltage of 1000V, the charging gun starts in less than 13 seconds.

2) Super range extension technology enables a comprehensive range of more than 1,000 km

As a hybrid technology, super range extenders are designed to provide longer range and lower energy consumption. According to the current technological development trend, the range of the new generation of super-extended-range vehicles is likely to exceed 400 kilometers. According to data, nearly 30 models including Geely, Chery, GAC, and Voyah will be equipped with the black technology by 2025.

Case 1: Deepal Super Range Extender 2.0 was launched

On March 18, 2024, Deepal G318 officially made its debut, equipped with Deepal Super Range Extender 2.0 for the first time. The car accelerates from 0 to 100 mph in 6.3 seconds, with a maximum power of 316kW, and a peak wheel torque of 6200N*m. The battery-electric range is 190Km (CLTC), and the comprehensive range is over 1,000km.

Case 2: AITO released the next-generation super range extension system

On November 15, 2024, AITO released the next-generation Seres super range extension system which highlights quietness, high integration and high efficiency.

The range extension system is based on the "C2E range extension architecture" and "RoboREX intelligent control technology". C2E is a new highly integrated range extension architecture. Combined with RoboREX intelligent range extension control technology, it changes the working mode of range extenders from passive to active, facilitates intelligent active energy management, reduce the overall fuel consumption by 15% and lowers noise by 90%. The actual efficiency of the range extender exceeds 3.6kWh/L, which is equivalent to 1L of fuel generating more than 3.6 kWh, topping mass-produced range extenders in the industry.

The M9 and the new M7, equipped with AITO's next-generation Seres super range extension system, have a battery-electric range of more than 200km and a comprehensive range of more than 1,200km.

Table of Contents

Overview

Overview 1: Application of Emerging Technologies in Smart Cockpits

Overview 2: Application of Emerging Technologies in Smart Driving

Overview 3: Application of Emerging Technologies in Body and Chassis

Overview 4: Application of Emerging Technologies in Energy and Power

Overview 5: Application of Emerging Technologies in Other Fields

1 Application of Emerging Technologies in Smart Cockpits

• 1.1 Expansion of Smart Glass Application
• Case 1: Ferrari Purosangue Applies Gauzy SPD Smart Glass Technology
• Case 2: China Unicom and Fuyao Group Jointly Build 5G Glass Antennas
• Case 3:
• Case 4:
• Case 5:
• Case 6:
• Case 7:
• Case 8:
• Case 9:
• 1.2 More Models with Panoramic Canopies
• Panoramic Canopy Development History
• Case 1: ZEEKR 001
• Case 2: Avatr 12
• Case 3: Volkswagen ID.7 VIZZION
• Case 4:
• Case 5:
• Case 6:
• Case 7:
• Case 8:
• Case 9:
• Case 10:
• Case 11:
• 1.3 Innovative Lightweight Materials for Automotive Glass
• 1.4 Innovative Application of Automotive Glass Ink
• 1.5 3D Displays Improve Immersive Cockpit Experience
• Naked-eye 3D Technology Route
• Application Fields and Scenarios of Naked-eye 3D in Vehicles
• Naked-eye 3D Cluster Screens
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5:
• Case 6:
• Light Field 3D Display Technology
• Light Field Display System Composition
• Light Field Display Application Scenarios
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5:
• Case 6:
• Aerial 3D Imaging
• Principle of Aerial 3D Imaging Technology
• Aerial Imaging Application Scenarios
• Aerial Imaging Application Scenarios
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5:
• Case 6:
• 3D AR-HUD
• Advantages of 3D AR-HUD
• 3D AR-HUD Technology Route
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5:
• Case 6:
• Case 7:
• Case 8:
• Case 9:
• Case 10:
• 1.6 Invisible Display Technology Improves Cockpit Design and Intelligence
• Invisible Display Cases (1)
• Invisible Display Cases (2)
• Invisible Display Cases (3)
• Invisible Display Cases (4)
• Invisible Display Cases (5)
• 1.7 Panoramic Display
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5:
• Case 6:
• Case 7:
• 1.8 AR Glasses Improve Cockpit Entertainment
• Optical Solutions for AR Glasses
• Case 1:
• Case 2:
• Case 3:
• Case 4: Smart Glasses Arena in 2025
• 1.9 Updates of Automotive Voice Assistants in AI
• Automotive AI Assistant Application Scenarios
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5:
• Automotive Voice Assistant Trends (1):
• Automotive Voice Assistant Trends (2):
• Automotive Voice Assistant Trends (3):
• Automotive Voice Assistant Trends (4):
• 1.10 Innovative Functions of Healthy Cockpits
• Summary of OEM Health Technology Routes
• Case 1:
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• Case 15:
• Case 16:
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• Case 18:
• Summary of Supplier Health Technology Routes (1)
• Summary of Supplier Health Technology Routes (2)
• Case 1:
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• Case 3:
• Case 4:
• Case 5:
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• Case 15:
• Automotive Health Trends (1):
• Automotive Health Trends (2):
• Automotive Health Trends (3):
• Automotive Health Trends (4):
• Automotive Health Trends (5):
• Automotive Health Trends (6):
• Automotive Health Trends (7):

2 Application of Emerging Technologies in Intelligent Driving

• 2.1 Thousand-line LiDAR
• 2.2 Mass Production and Launch of zoomable LiDAR
• 2.3 Novel LiDAR Application
• 2.4 New 3D LiDAR
• Case 1:
• Case 2:
• Case 3:
• 2.5 4D LiDAR Further Enhances Detection
• 2.6 FMCW Is the Future Development Direction of LiDAR
• Case 1:
• Case 2:
• Case 3:
• 2.7 Autofocus Cameras under Development
• 2.8 Expanded Application of RGB-IR Cameras
• Case 1:
• Case 2:
• Case 3:
• 2.9 Bionic Cameras Inspire Visual Sensors
• Case 1:
• Case 2:
• Case 3:
• 2.10 Integrated Sensors Are Beginning to Be Applied in the Fields of Cockpit Monitoring and Autonomous Driving
• 2.11 4D Imaging Radar Can Cater to NOA and Autonomous Driving of L3 and Above
• Case 1:
• Case 2:
• 2.12 Launch of 5D Imaging Radar
• 2.13 Infrared Thermal Imaging Technology Empowers Smart Driving
• Case 1:
• Case 2:
• 2.14 End-to-end Foundation Models Become the Focus of Autonomous Driving
• Progress of End-to-end Autonomous Driving in Mass Production
• Comparison among OEMs in End-to-end System Solution Layout (1)
• Comparison among OEMs in End-to-end System Solution Layout (2)
• Comparison among Tier 1 ADAS Suppliers in End-to-end System Solution Layout (1)
• Comparison among Tier 1 ADAS Suppliers in End-to-end System Solution Layout (2)
• Comparison among Other Autonomous Driving Companies in End-to-end System Solution Layout
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5:
• Case 6:
• Case 7:
• End-to-end Systems Empower Top OEMs to Launch Mapless NOA Nationwide on a Large Scale
• Comparison among Sub-brands of Domestic Mainstream OEMs in NOA and End-to-end Implementation Schedule (1):
• Comparison among Sub-brands of Domestic Mainstream OEMs in NOA and End-to-end Implementation Schedule (2):
• Comparison among Sub-brands of Domestic Mainstream OEMs in NOA and End-to-end Implementation Schedule (3):
• Comparison among Sub-brands of Domestic Mainstream OEMs in NOA and End-to-end Implementation Schedule (4):
• 2.15 Multi-modal Foundation Models Improve Autonomous Driving Perception and Decision-making Capabilities
• VLM Is a "New Star" of Multi-modal Foundation Models at This Stage
• VLM Evolves to VLA
• Application Cases

3 Application of Emerging Technologies in Body and Chassis

• 3.1 3D Printing Becomes a Tool for Vehicle Styling Design
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5:
• 3.2 5G RedCap Provides Lightweight Communication Modules
• Commercialization Progress of 5G RedCap
• 5G RedCap Communication Module Suppliers
• Status Quo of 5G RedCap Industry
• 5G RedCap Application
• 3.3 The First Year of 5G-A Development
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5:
• 3.4 Emergence of 6G
• Trend 1:
• Trend 2:
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• Trend 8:
• 3.5 Commercialization Stage of SparkLink
• SparkLink Communication Interfaces
• SparkLink Standard Specifications
• Commercial Application of SparkLink
• Digital Key Solutions Based on SparkLink
• Technical Advantages of SparkLink
• Application Cases
• 3.6 OEMs Expand Satellite Communication Layout
• Case 1
• Case 2
• Case 3
• Case 4
• 3.7 10 Gigabit Ethernet Technology Revolutionizes Vehicle Communication Networks
• 3.8 Innovative Application of Color-Changing Bodies
• Case 1
• Case 2
• 3.9 The Application of Environmentally Friendly Materials in Bodies, Interiors and Exteriors Expands
• Body Environmentally Friendly Materials Cases (1)
• Body Environmentally Friendly Materials Cases (2)
• Body Environmentally Friendly Materials Cases (3)
• Body Environmentally Friendly Materials Cases (4)
• 3.10 Lightweight Materials Improve Vehicle Performance
• Application of CFRP
• CFRP Application (1):
• CFRP Application (2):
• CFRP Application (3):
• CFRP Application (4):
• CFRP Application (5):
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• 3.11 Cooling Materials Enter the Testing Stage
• Case 1:
• Case 2:
• 3.12 Digital Chassis Improve Vehicle Comfort
• Case 1:
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• Case 3:
• Case 4:
• Case 5:
• Case 6:
• 3.13 Luminous Grilles Enhance Brand Recognition
• Application Features of Luminous Grilles
• Case 1:
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• 3.14 "Invisible" Intelligent Exteriors
• Case 1:
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• Case 4:
• Case 5:
• Case 6:
• Case 7:
• Case 8:
• 3.15 Intelligent Tires
• Case 1:
• Case 2:
• Case 3:

4 Application of Emerging Technologies in Energy and Power

• 4.1 Solid-state Batteries Will Be Mass-produced After 2026
• Status Quo of Solid-state Battery Industry
• Layout of Solid-state Battery Enterprises
• Case 1:
• Case 2:
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• Case 4:
• Case 5:
• Case 6:
• Case 7:
• Case 8:
• Case 9:
• Case 10:
• Case 11:
• 4.2 Innovative Application of Lithium-Ion Batteries
• 4.3 The Industrialization Process of Hydrogen Fuel Cells is Accelerating
• Case 1:
• Case 2:
• 4.4 Smart Batteries Are Expected to Achieve Technological Breakthroughs
• Iterations of Smart Batteries
• Fiber Optic Sensors Will Be Used in Smart Lithium Batteries
• 4.5 Other Novel Batteries
• 4.6 Supercharging Systems Emerge
• Status quo of Liquid Cooling Supercharging Industry
• Case 1:
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• Case 5:
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• 4.7 Super Range Extension Technology Breaks through the 400-kilometer Range Mark
• Case 1:
• Case 2:

5 Application of Emerging Technologies in Other Fields

• 5.1 Booming Low-altitude Flight Market
• Case 1:
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• Case 5:
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• Case 7:
• Case 8:
• Case 9:
• 5.2 The Commercialization Process of Humanoid Robots Is Accelerating
• Case 1:
• Case 2:
• Case 3:
• Case 4:
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• Case 6:
• Case 7:
• Case 8:
• 5.3 Eye Tracking Technology Was Released and Mobile Phone Companies Take the Lead
• Case 1:
• Case 2:
• 5.4 Phone-IVI Interconnection Evolves to Phone-IVI Integration
• Application Scenarios of Phone-IVI Integration
• Typical Cases of Phone-IVI Integration
• Case 1:
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• Case 4:
• 5.5 eSIM Cards Help Vehicles Go Overseas
• eSIM Technical Standards
• Significance of eSIM in the Internet of Vehicles
• eSIM Helps Vehicles Go Overseas
• Brands and Models Equipped with eSIM Cards
• Case 1:
• Case 2:
• Case 3:
• Case 4:
• Case 5: