インターネットオブシングス(Internet of Things), クラウドコンピューティング、コネクテッドカー、ビッグデータ、分析… これらと自動車業界との関係性は?この本ではデジタル化やコネクテッド性(接続性)、個人化やデータの知見などがもたらす将来のモバイルトレンドをご紹介していきます。今後、企業はエンタープライズアーキテクチャを用いて新たなビジネスモデルを採用・構築し、柔軟に実行していくことを求められるでしょう。それには重要なビジネスコンピテンシーの変換が主要なコンセプトとなります。デジタル自動車の未来はもうすでにここにあるのです。では誰がそれを形にさせるのでしょうか?
Smart Lighting Market Research : A Global AnalysisBIS Research
The market for smart lighting and control systems have been broadly segmented by fixtures (LEDs and HIDs), controls, and data enables Services. The control market comprises of components such as relays and timers, actuators, sensors, and ballasts. The control segment is attracting market monoliths and smaller players alike, to propel the revenue generation.
Smart lighting fixture and control market finds base across a plethora of applications broadly segmented as Residential, Commercial, and Others. Commercial applications are poised to become the dominant revenue contributors through the forecast period, riding high on sub segments such as hospitality, retail, and office buildings. The market for smart street lighting is gradually picking up pace and is expected to account for the largest market revenue in the Other application segment in the industry.
The world of lighting controls for non residential buildings is changing dramatically.
The advent of the Internet of Things (IoT), Convergence, Smart mobile and Analytics is enabling new solution players and delivery channels to deliver more and better energy saving and sustainable solutions globally.
The question who are these organisations and where can you find them?
To devise a smart street lighting system which aims at curbing the power loses during night time.
It is Achieved by Reducing the Intensity of the Street Lights when the street are empty and increasing it when activity is detected.
Reducing the amount of energy wasted by curbing the power losses in the street lamps during the night time.
Smart detecting system to adjust the intensity of street light according to the activity on the road.
iLight is a low-cost mobile and web application platform that provides digital security, content and cloud services. It uses wireless RF/Zigbee and GPRS/2G/3G/4G networks to remotely monitor and control street lighting by measuring voltage, current, temperature and alerting of malfunctions. It allows for flexible networking of lights, real-time dimming control from a control center or mobile devices, and secondary energy savings by adjusting brightness based on environmental lighting conditions.
インターネットオブシングス(Internet of Things), クラウドコンピューティング、コネクテッドカー、ビッグデータ、分析… これらと自動車業界との関係性は?この本ではデジタル化やコネクテッド性(接続性)、個人化やデータの知見などがもたらす将来のモバイルトレンドをご紹介していきます。今後、企業はエンタープライズアーキテクチャを用いて新たなビジネスモデルを採用・構築し、柔軟に実行していくことを求められるでしょう。それには重要なビジネスコンピテンシーの変換が主要なコンセプトとなります。デジタル自動車の未来はもうすでにここにあるのです。では誰がそれを形にさせるのでしょうか?
Smart Lighting Market Research : A Global AnalysisBIS Research
The market for smart lighting and control systems have been broadly segmented by fixtures (LEDs and HIDs), controls, and data enables Services. The control market comprises of components such as relays and timers, actuators, sensors, and ballasts. The control segment is attracting market monoliths and smaller players alike, to propel the revenue generation.
Smart lighting fixture and control market finds base across a plethora of applications broadly segmented as Residential, Commercial, and Others. Commercial applications are poised to become the dominant revenue contributors through the forecast period, riding high on sub segments such as hospitality, retail, and office buildings. The market for smart street lighting is gradually picking up pace and is expected to account for the largest market revenue in the Other application segment in the industry.
The world of lighting controls for non residential buildings is changing dramatically.
The advent of the Internet of Things (IoT), Convergence, Smart mobile and Analytics is enabling new solution players and delivery channels to deliver more and better energy saving and sustainable solutions globally.
The question who are these organisations and where can you find them?
To devise a smart street lighting system which aims at curbing the power loses during night time.
It is Achieved by Reducing the Intensity of the Street Lights when the street are empty and increasing it when activity is detected.
Reducing the amount of energy wasted by curbing the power losses in the street lamps during the night time.
Smart detecting system to adjust the intensity of street light according to the activity on the road.
iLight is a low-cost mobile and web application platform that provides digital security, content and cloud services. It uses wireless RF/Zigbee and GPRS/2G/3G/4G networks to remotely monitor and control street lighting by measuring voltage, current, temperature and alerting of malfunctions. It allows for flexible networking of lights, real-time dimming control from a control center or mobile devices, and secondary energy savings by adjusting brightness based on environmental lighting conditions.
The document discusses various sensor technologies and solutions for lighting and air conditioning loads. It describes the differences between motion and occupancy sensors, listing various sensor types from different solution providers including PIR, DALI, KNX, and wireless options. It also provides information on applications of different sensor types and benchmark energy savings for common areas.
This document describes an energy saving project using a PIR sensor. The project aims to automatically turn lights and fans on when motion is detected and off when no motion is present, saving energy. The main components are a PIR sensor to detect motion, a microcontroller, an LDR sensor to detect light levels, dimmers to control light brightness, and an LCD display to show the system status. When motion is detected, the lights and fans turn on. When no motion is detected, the lights and fans automatically turn off. This helps save energy by avoiding wasted power when a space is unoccupied.
The document describes the Square D Powerlink G3 lighting control system. It features remotely operated circuit breakers in lighting panelboards that automatically switch lights off during unoccupied periods to reduce energy costs. The system requires no additional installation costs beyond mounting a standard lighting panelboard. It simplifies design and is fully code compliant.
This document discusses sustainability and quality lighting design. It defines sustainability as meeting present needs without compromising future generations' ability to meet their own needs. Sustainable design components include low energy use, renewable energy sources, recycled/recyclable materials, local materials, and responsible site selection. Quality lighting has three components - economics, human needs, and architecture. Some conflicts designers face include dark sky ordinances, color rendering, high lighting requirements, energy limitations, and balancing client and code requirements.
The document discusses NFPA 72 and NFPA 101, which provide minimum requirements for fire alarm systems and life safety from fire. NFPA 72 defines signal initiation, transmission, notification and annunciation for fire alarm systems to provide notification, summon aid and control safety functions. NFPA 101 aims to protect occupants not involved in initial fire development and improve survivability for those who are. It establishes requirements for visible signaling, including candela ratings and placement of strobes in corridors and sleeping areas. Synchronization of multiple appliances is also addressed.
Intelligente lichtregelsystemen verleden en toekomst (engels) tvilight-septem...RolandSyntens
This document discusses intelligent lighting and its benefits. It notes that traditional street lighting wastes a significant amount of energy and emits high levels of carbon dioxide. A solution called intelligent or adaptive lighting is proposed. This system uses outdoor sensors and a wireless network to monitor lighting needs and only illuminates areas when motion is detected. This can reduce energy usage by up to 80% and lower maintenance costs. Examples of intelligent lighting installations in parking lots, residential areas, campuses and roadways are provided. The system enhances safety while reducing light pollution and costs. It may also serve as a foundation for broader smart city applications in the future.
Developing with VoiceXML Building a Video Conference ApplicationVideoguy
The document discusses building a video conferencing application using VoiceXML and off-the-shelf components. It covers the system architecture including major components like the video conference application, video-enabled media server, and SIP/RTP protocols. It also describes controlling conference participants through features like muting, priority speaker selection, and manual/automated video source control.
How to Make Smart Lighting Choices for Your Business OPPLE Lighting
No matter if your facility is a restaurant, shopping mall, retail shop or office building, the right lighting is crucial to improving both the physical and emotional environment of your business. So today, let our OPPLE Experts offer you some smart and useful lighting installation tips taken directly from three of our most recent project experiences: Burger King, The Adidas Flagship Store and The First Yantai International.
The document discusses enhancing lighting with new functionalities and low cost connectivity. It describes how the adoption of solid state lighting has changed business models and created new opportunities through integrating wireless connectivity and sensors. It outlines VTT's expertise in areas like wireless technologies, measurement systems, and practical lighting knowledge that can help overcome challenges of connectivity, functionality, and integration for smart lighting applications.
This document proposes a concept center that features various smart facilities and services including:
- Smart lighting, environmental monitoring, surveillance, emergency alerts and updates through an app called ORG911.
- Features like bus tracking, a building management system, smart conference rooms, a "where can I park" app.
- A smart restaurant with mobile ordering, speech recognition hologram assistance, and mobile app kitchen ordering.
- Smart retail with mobile shopping and the ORG911 emergency app.
- Crowdsourced smart campus management through a mobile ticketing app.
- Smart healthcare with electronic records, cloud-based medical apps, and predictive health algorithms.
- Smart transportation including bus tracking, driver monitoring
An insightful and visionary speech about the future of smart city by Mr. Ronald RAFFENSPERGER, Chief Technology Officer, Data Center Solution Sales, Huawei Technologies Company Limited
デジタル ディスラプション、異業種からの競合参入、労働力不足など、変革を迫られる製造業のイノベーションを支援するため、マイクロソフトは ”Intelligent Manfacturing” をコンセプトに掲げ、ビジネス変革のためのソリューションを推進しています。本セッションでは ”Intelligent Manufacturing” の主要な構成要素である ”Factory of the future”、”Product as a Service”、”Intelligent Supply Chain” について、リファレンスと取り組み状況をお伝えします。
Open IoT platforms for Smart Services (Japanese)FIWARE
'Open IoT platforms for Smart Services'.
Presentation (in Japanese) by Ulrich Ahle, FIWARE Foundation CEO.
Shown at the OpenStack Days in Tokyo (21/07/2017)
The document discusses various sensor technologies and solutions for lighting and air conditioning loads. It describes the differences between motion and occupancy sensors, listing various sensor types from different solution providers including PIR, DALI, KNX, and wireless options. It also provides information on applications of different sensor types and benchmark energy savings for common areas.
This document describes an energy saving project using a PIR sensor. The project aims to automatically turn lights and fans on when motion is detected and off when no motion is present, saving energy. The main components are a PIR sensor to detect motion, a microcontroller, an LDR sensor to detect light levels, dimmers to control light brightness, and an LCD display to show the system status. When motion is detected, the lights and fans turn on. When no motion is detected, the lights and fans automatically turn off. This helps save energy by avoiding wasted power when a space is unoccupied.
The document describes the Square D Powerlink G3 lighting control system. It features remotely operated circuit breakers in lighting panelboards that automatically switch lights off during unoccupied periods to reduce energy costs. The system requires no additional installation costs beyond mounting a standard lighting panelboard. It simplifies design and is fully code compliant.
This document discusses sustainability and quality lighting design. It defines sustainability as meeting present needs without compromising future generations' ability to meet their own needs. Sustainable design components include low energy use, renewable energy sources, recycled/recyclable materials, local materials, and responsible site selection. Quality lighting has three components - economics, human needs, and architecture. Some conflicts designers face include dark sky ordinances, color rendering, high lighting requirements, energy limitations, and balancing client and code requirements.
The document discusses NFPA 72 and NFPA 101, which provide minimum requirements for fire alarm systems and life safety from fire. NFPA 72 defines signal initiation, transmission, notification and annunciation for fire alarm systems to provide notification, summon aid and control safety functions. NFPA 101 aims to protect occupants not involved in initial fire development and improve survivability for those who are. It establishes requirements for visible signaling, including candela ratings and placement of strobes in corridors and sleeping areas. Synchronization of multiple appliances is also addressed.
Intelligente lichtregelsystemen verleden en toekomst (engels) tvilight-septem...RolandSyntens
This document discusses intelligent lighting and its benefits. It notes that traditional street lighting wastes a significant amount of energy and emits high levels of carbon dioxide. A solution called intelligent or adaptive lighting is proposed. This system uses outdoor sensors and a wireless network to monitor lighting needs and only illuminates areas when motion is detected. This can reduce energy usage by up to 80% and lower maintenance costs. Examples of intelligent lighting installations in parking lots, residential areas, campuses and roadways are provided. The system enhances safety while reducing light pollution and costs. It may also serve as a foundation for broader smart city applications in the future.
Developing with VoiceXML Building a Video Conference ApplicationVideoguy
The document discusses building a video conferencing application using VoiceXML and off-the-shelf components. It covers the system architecture including major components like the video conference application, video-enabled media server, and SIP/RTP protocols. It also describes controlling conference participants through features like muting, priority speaker selection, and manual/automated video source control.
How to Make Smart Lighting Choices for Your Business OPPLE Lighting
No matter if your facility is a restaurant, shopping mall, retail shop or office building, the right lighting is crucial to improving both the physical and emotional environment of your business. So today, let our OPPLE Experts offer you some smart and useful lighting installation tips taken directly from three of our most recent project experiences: Burger King, The Adidas Flagship Store and The First Yantai International.
The document discusses enhancing lighting with new functionalities and low cost connectivity. It describes how the adoption of solid state lighting has changed business models and created new opportunities through integrating wireless connectivity and sensors. It outlines VTT's expertise in areas like wireless technologies, measurement systems, and practical lighting knowledge that can help overcome challenges of connectivity, functionality, and integration for smart lighting applications.
This document proposes a concept center that features various smart facilities and services including:
- Smart lighting, environmental monitoring, surveillance, emergency alerts and updates through an app called ORG911.
- Features like bus tracking, a building management system, smart conference rooms, a "where can I park" app.
- A smart restaurant with mobile ordering, speech recognition hologram assistance, and mobile app kitchen ordering.
- Smart retail with mobile shopping and the ORG911 emergency app.
- Crowdsourced smart campus management through a mobile ticketing app.
- Smart healthcare with electronic records, cloud-based medical apps, and predictive health algorithms.
- Smart transportation including bus tracking, driver monitoring
An insightful and visionary speech about the future of smart city by Mr. Ronald RAFFENSPERGER, Chief Technology Officer, Data Center Solution Sales, Huawei Technologies Company Limited
デジタル ディスラプション、異業種からの競合参入、労働力不足など、変革を迫られる製造業のイノベーションを支援するため、マイクロソフトは ”Intelligent Manfacturing” をコンセプトに掲げ、ビジネス変革のためのソリューションを推進しています。本セッションでは ”Intelligent Manufacturing” の主要な構成要素である ”Factory of the future”、”Product as a Service”、”Intelligent Supply Chain” について、リファレンスと取り組み状況をお伝えします。
Open IoT platforms for Smart Services (Japanese)FIWARE
'Open IoT platforms for Smart Services'.
Presentation (in Japanese) by Ulrich Ahle, FIWARE Foundation CEO.
Shown at the OpenStack Days in Tokyo (21/07/2017)
2. 1. Smart Lighting Marketの市場概要
A. グローバルにおける市場規模と今後の成長率
B. エリア別分析
C. 市場全体のプレーヤーマップと概観
2. 構成するキーファクター
A. 顧客別分析
B. ライトの種類別分析
C. Connectivity (コネクティビティ)
3. 現在のコネクティビティの概要
A. 技術比較
B. プレーヤー比較
C. コネクティビティ周辺の各社の競争
D. 世の中の新しい動き
4. 結論
調査項目