汉得利BESTAR座椅触觉反馈技术:重塑驾驶体验




汉得利BESTAR座椅触觉反馈技术:重塑驾驶体验

随着汽车行业的快速发展和消费者对驾驶体验的不断追求,传统的汽车座椅已经无法满足现代用户的需求。汉得利BESTAR自研座椅触觉反馈技术,旨在通过创新科技为用户提供更加安全、舒适和娱乐化的驾乘体验。这项技术不仅结合了先进的传感器和智能算法,还融入了人体工程学设计,确保在各种驾驶场景下都能提供最佳的支持和触觉反馈。无论是日常通勤还是长途旅行,汉得利BESTAR座椅触觉反馈技术都能为驾驶员和乘客带来前所未有的沉浸感和舒适度,重新定义了电动汽车的驾驶体验。

汉得利BESTAR座椅触觉反馈技术:重塑驾驶体验

安全至上

在安全性方面,汉得利BESTAR座椅触觉反馈技术采用了高优先级的温和运动模式,并与先进的驾驶辅助系统(ADAS)紧密集成,通过优化警告信息展示方式,最小化驾驶员认知负荷。当检测到潜在危险时,座椅通过振动提前预警驾驶员(如前车碰撞预警、倒车碰撞预警、车道偏离预警等),显著缩短驾驶员的反应时间,为行车安全提供了有力保障。

舒适体验

为了提升乘坐舒适度,汉得利BESTAR座椅触觉反馈技术不仅支持多种放松舒适的运动模式,还特别设计了充电休息时斜倚功能,让驾驶员在短暂休憩期间也能享受到极致的舒适感。此外,在城市交通中,这项技术帮助保持车内宁静氛围;而在长途旅行过程中,则能有效缓解疲劳,保持驾驶员警觉状态,随时根据即将面临的驾驶场景调整座椅设置,确保最佳的乘坐体验。

娱乐和游戏化

汉得利BESTAR座椅触觉反馈技术不仅仅局限于提高安全性和舒适度,还在娱乐领域大放异彩。无论是聆听音乐、观看视频还是游戏中,通过座椅振动,配合音响系统,实现6D音效,将音频内容转化为细腻的振动传递给身体,带来前所未有的沉浸式娱乐享受。

个性化驱动模式

汉得利BESTAR座椅触觉反馈技术让用户在熟悉的感觉与新颖的体验之间自由选择,提供了包括未来主义、环保及豪华在内的多种驱动模式选项。通过在安全、舒适、娱乐和个性化方面的卓越表现,不仅提升了驾驶体验,还为用户带来了前所未有的沉浸感和便捷性,同时满足了现代消费者对高品质生活以及个性化需求的追求;重新定义电动汽车的驾驶体验,为电动汽车市场注入了新的活力。

未来汉得利BESTAR将继续致力于技术创新,推动汽车行业向着更加智能、人性化和可持续的方向发展,为用户创造更加美好的出行未来。



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汉得利BESTAR座椅触觉反馈技术:重塑驾驶体验
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汉得利BESTAR座椅触觉反馈技术:重塑驾驶体验


原文始发于微信公众号(汉得利控股):汉得利BESTAR座椅触觉反馈技术:重塑驾驶体验

With the continuous enrichment of smart cockpit scenarios, passengers spend more and more time in the cockpit, putting forward higher and higher requirements for riding experience and comfort experience. When the journey is no longer a short period of time, how to optimize and improve seat comfort? Sex has become an important issue at the moment, and smart car seats have emerged. As a device that directly contacts the driver and passengers, seats play an important role in user experience and are also one of the factors that distinguish the level of automobile manufacturers. Today's high-end seats incorporate a wide range of applications for seat adjustment or seat movement, seat comfort (dynamic cushions, lumbar support, massage, heating, cooling and/or ventilation, seating assistance and personalized adjustment memory function), seat safety function, seat occupant perception (multiple built-in sensors can provide feedback information to the system). Due to the additional functions, modern seat modules have become as complex as body control modules and face similar challenges in terms of power supply, communication, sensing, activation and control, and quiescent current. In order to minimize the space requirements, power consumption and quiescent current of the management seat control module, functional integration becomes one of the important design factors. Therefore, smart car seats contain numerous motor drives and control units, and fabric selection and ergonomic design also need to be considered. The technical threshold is comparable to that of robots. In order to strengthen industry chain exchanges, jointly promote industry development, and learn about the latest product trends, Abant has established an automotive smart seat industry chain exchange group for everyone. Everyone is welcome to join the group for exchanges and discussions.

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