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自動車技術

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自動車の死角検知(BSD)システムの市場は、2016年まで成長し続けるだろう。車線変更補助や交差点警告などのアドオン機能に促進されて、アプリケーションの人気が高まるだろう。単独機能としての死角検視システムは、これまでは決して人気のアプリケーションというわけではなかったが、新しいアドオン機能と組み合わさることによって、今後1、2年間、市場に参加する企業により大きなビジネスチャンスを提供することになるだろう。この調査レポートは、死角検出システムの現状に至る技術の進化を分析し、2016年までの世界の地域毎の市場予測を行っている。自動車メーカーやサプライヤ毎の特徴を概観し、市場に影響を与える主要な要因について詳述している。

The market for blind spot detection (BSD) systems is set for increasing growth through 2016. The popularity of the application is being driven by add-on features, including lane-change assistance and cross traffic alert. Blind spot detection as a standalone application has never been a particularly popular option, but the development of new add-on features combined with the availability of active assistance makes the next few years a period of good potential for market participants.

This study examines the technology advances that have led to the current state of blind spot detection, and provides world region forecasts though 2016. An overview of features available by vehicle manufacturer and supplier capability is also provided, along with detailed discussion of the key factors affecting the market.

What Questions Does This Report Answer?

• What are the key market drivers and business issues supporting the development and implementation of blind spot detection and cross traffic alert systems?
• What are the key benefits of blind spot detection systems?
• What types of blind spot system are currently available?
• Which OEMs currently offer blind spot detection systems?
• How fast is this market expected to grow over the next five years and why?
• What can automakers and their supplier partners do to maximize the benefit from the latest systems?

Who Needs This Report?

• Automotive OEMs
• Tier 1 suppliers
• Tier 2 suppliers
• Sensor manufacturers
• Camera vendors
• Software developers
• Venture capital firms
• Vehicle insurance companies
• Fleet managers

目次

Ambient Energy Harvesting Can Power M2M Devices

NEW YORK - March 8, 2011

“Energy harvesting” is the capture of ambient energy, its conversion into a usable form, and its storage for immediate or future use. The types of ambient power that can be harvested include light, heat, motion, vibration, and RF. Examples of energy harvesting that have been around for decades include solar-powered calculators, wristwatches powered by body motion, and bicycle lights powered by a generator/dynamo run by friction with the wheel.

Over the last decade, interest in energy harvesting has increased because of its environmental friendliness and its ability to power devices without electric wires, extending the life of batteries (or eliminating them entirely) and decreasing maintenance.

In its new study “Energy Harvesting for M2M Devices,” ABI Research has determined that the market for energy harvesting systems totaled just $3.82 million in 2009, and that it will reach $418 million by 2016. If energy harvesting development kits are included, the 2009 market exceeded $12.7 million, and will reach approach $480 million by 2016.

Larry Fisher, research director of NextGen (ABI Research’s emerging technologies research incubator) comments, “Because ambient power is scavenged in milliwatts (mW) or even microwatts (µW), energy harvesting is best used for small, wireless, autonomous devices that can function on an ultra-low-power basis. This makes it clearly applicable to Wireless Sensor Networks (WSN), which are the next step in the evolution of automating buildings, utilities, factories, homes and transportation systems. Wireless sensors can be spread throughout a home or building, in factories or on bridges or other structures to monitor environmental or other conditions; if they’re powered by energy harvesting, there are no batteries to replace and no labor costs associated with replacing them.”

Fisher adds, “The market for energy harvesting is still in the very early stages of development, while R&D and prototyping of systems continue to prove their reliability and economic value compared to battery-powered systems.”

Energy Harvesting for M2M Devices covers the market for energy harvesting solutions for M2M devices, and provides forecasts of energy harvesting unit shipments and revenue, segmented by major global region and by ambient energy source, along with shipment and revenue data related to the proliferation of energy harvesting development kits.

The report forms part of ABI Research’s Automotive Technology Research Service.