Smart City

Smart City

Friday, January 29, 2016

Internet Of Things (IoT) Predictions From Forrester, Machina Research, WEF, Gartner, IDC

For the third year in a row, the Internet of Things has dominated CES. More than 900 companies out of 3,800 at the show said they had Internet of Things products. Andrew Begin at Mirum observed that the IoT has “caught fire in a big way” and Perry Simpson at Direct Marketing predicted that the IoT will solidify “from marketing dream to full on marketing channel.”
But not everybody was impressed: “IoT remains mired in smart light bulbs, net-connected cameras and wireless speakers,” opined Andrew Tarantola atEngadget, “the same sorts of bland, iterative use cases we’ve been seeing since the term was first coined.” Pam Baker at FierceBigData complained that “IoT data products were again in overdrive, many in outright overkill, and the same problems with data deluge still existed,” and Todd Hixon offered this on Forbes: “The fundamental problem is, there is still no killer app for IOT: something a large group of customers really care about and just have to have.”
So what’s the state-of-the-IoT and where is it going? Here’s a summary of data and predictions from Forrester, Machina Research, the World Economic Forum (WEF), Gartner, and IDC (see a list of specific sources at the end of this post).

Steps forward for IoT in 2016

Despite the hype, IoT technology is not something new; it’s the latest stage of a market that is constantly evolving. However, faced with the unrelenting pressure for increased resource utilization and cost efficiency as well as the complementary advance of data analytics, we have focused our attention on the potential IoT has to make our world a better place. Several steps toward realizing the potential of IoT will be taken in 2016.
  1. IoT Network Effect: A Collaborative Environment
Just a few years ago, the IoT ecosystem tended to be rigid and siloed. Horizontal silos arose from a maturing value chain of sensor manufacturers, gateway vendors and application developers, all working individually. Perhaps even stronger, vertical application silos formed around specific industries. Industrial control, satellite communications, fleet management and marine electronics industries are just a few examples of verticals with their own standards and proprietary solution stacks.
While we shouldn’t ignore the value these solutions delivered, the silos created economic inefficiencies through development duplication and, more importantly, inhibit the full potential of devices connected in a single network — sometimes referred to as “the network effect.” Cross-connecting different types of IoTdevices, both within and between industries, will lead to an exponential growth in the value of IoTsolutions.
To realize this value, the IoT supply chain will mature into an ecosystem reminiscent of the Android ecosystem. Each horizontal layer and vertical application will optimize itself but will rely on unifying, open platforms that allow seamless co-existence, interoperability and data exchange between many types of IoTdevices. This year, this new solution architecture will enable rapid innovation, with new applications that combine existing devices in previously unforeseen ways.
  1. IoT Mobile Networks: Telcos Will Rise to the Signal Challenge
Open software platforms do not resolve all of the challenges with IoT. For example, the IoT community currently faces a pressing challenge with connectivity. Though IoT connectivity tends to require minimal bandwidth, many applications rely on continuous connectivity, and irregular availability of a mobile signal might inhibit solution deployment. Unfortunately, almost all mobile networks, including many GSM networks worldwide, fail to achieve a perfect blanket of coverage outside of densely populated areas. Telcos have started to notice this coverage issue for IoT applications, including their own IoT services. In 2016, these telcos will deploy technologies designed to expand signal coverage for IoT applications, even where it did not make sense for mobile phone service.
  1. IoT Wireless Networks: Low Speed, Long Life
Another major trend on the technological front will be the rise in the number of radio options for wirelessIoT devices in 2016. While residential broadband and mobile networks will likely form the backbone of theIoT network, the cost and power sensitivity of many small IoT devices will limit their use of Wi-Fi. More efficient, lower speed wireless technologies such as ZigBee, LoRa and NFC will enable ubiquitous device connectivity without the overhead of mobile or Wi-Fi radios.
  1. IoT Enterprises: Technology Consumers
2016 will witness a major rise in deployment of IoT technology by medium and large enterprises. With a crucial need to bring down costs and improve efficiency, organizations are looking for ways to make optimum use of their resources and reduce their day-to-day operational expenses. Enterprises want to minimize their energy, utility and maintenance bills as well as use the marshalled performance data to make future investment decisions. This will be a key driver of a collaborative IoT ecosystem as solutions will need to be tailored to fit each enterprise’s business operations.
  1. IoT Society: Smart Cities and Better Lives
Most of the countries in the world have announced smart city projects, focusing on technology to improve governance and streamline operations. In 2016, IoT solutions will take the biggest slice of the smart city investment pie. To improve inhabitants’ lives, city administrators face a myriad of challenges, including planning, water systems, utilities, transportation, healthcare and safety. Each of these crucial services will be improved by smart applications built on open, Android-like IoT software platforms that integrate any sensor or gateway and can be customized for any real-time application.

Source:Telecoms.com

Tuesday, January 26, 2016

Global Internet of Things (IoT) in Healthcare Market Expected to Grow with 38% CAGR During 2015 - 2020: P&S Market Research

The global IoT in Healthcare market [https://www.psmarketresearch.com/market-analysis/internet-of-things-in-healthcare-market ] was valued at $24,666.7 million in 2014, and it is expected to grow with a CAGR of 37.6% during 2015 - 2020. Among the various components, the system and software segment is expected to witness the fastest growth during the forecast period, with a CAGR of 40.7%. The global IoT in healthcare market is growing at a significant rate, due to increasing demand for advanced healthcare information system, and growing prevalence of chronic and lifestyle associated diseases. In addition, the growing need for remote patient monitoring services, increasing demand of mHealth technologies, and increasing support from government organizations are also driving the growth of the global IoT in healthcare market.
Explore Report with Detailed TOC "Global Internet of Things (IoT) in Healthcare" at: https://www.psmarketresearch.com/market-analysis/internet-of-things-in-healthcare-market
The information and data in the publication "Global IoT in Healthcare Market Size, Share, Development, Growth and Demand Forecast to 2020" represent the research and analysis of data from various primary and secondary sources. The bottom-top approach has been used to calculate the global market size by type and drugs. The market numbers for countries are obtained through top-down approach. P&S Market Research analysts and consultants interacted with the authorities from leading companies of the concerned domain, to substantiate every value of data presented in this report. The company bases its primary research on discussions with prominent professionals and analysts in the industry, which is followed by informed and detailed, online and offline research.
The IoT applications in healthcare, such as telemedicine, medication management, clinical operations and workflow management, inpatient monitoring, helps in compiling services related to diagnosis, treatment, care, and rehabilitation. It improves communication between patients and healthcare providers, to reduce medication errors and provide better coordinated care.
According to the World Health Organization (WHO), 9.6 million people were diagnosed with tuberculosis and 1.5 million died due to the disease in 2014. Similarly, according to the WHO, globally 130 million to 150 million people had chronic hepatitis C infection in 2014. Moreover, according to the WHO in 2014, 1.2 million people died from HIV related causes globally and 2 million people were newly infected with HIV.
However, lack of security; insufficient memory, computational and energy limitations; and inadequate healthcare infrastructure in developing economies are inhibiting the growth of the market. The increasing number of collaboration and partnerships, growing number of product launches and increasing popularity of IoT healthcare devices are the major trends observed in the global IoT in healthcare market.
Geographically, North America dominated the global market of IoT in healthcare in 2014; whereas the Asian market is expected to witness the fastest growth, a CAGR of 41.6%, during the forecast period.
Some of the key companies operating in the global IoT in healthcare market include Medtronic Plc., Koninklijke Philips N.V., General Electric Company, Qualcomm Incorporated, Honeywell Life Care Solutions, SAP SE, Stanley Black & Decker Inc., International Business Machine (IBM) Corporation, Microsoft Corporation, Cerner Corporation, Diabetizer Ltd. & Co. KG, Proteus Digital Health Inc., AdhereTech Inc., and fPhysIQ, Inc.
GLOBAL IOT IN HEALTHCARE MARKET SEGMENTATION
By Component
- Medical Devices - Wearable External Devices - Implanted Medical Devices - Stationary Medical Devices - Software and Systems - Remote Device Management - Network Bandwidth Management - Data Analytics - Application Security - Network Security - Services 
By Connectivity Technology
- Wi-Fi - Bluetooth Low Energy (BLE) - Zigbee - Near Field Communication (NFC) - Cellular - Satellite 
By Application
- Telemedicine - Medication Management - Clinical Operations - Connected Imaging - Inpatient Monitoring - Others 
By End User
- Clinical Research Organization (CRO) - Hospitals & Clinics - Research and Diagnostic Laboratories - Others 
Breakdown by Geography
- North America - The U.S. - Canada - Rest of North America - Europe - The U.K. - Germany - France - Rest of Europe - Asia - Japan - China - India - Rest of Asia - Rest of the World (RoW) 
Browse Other Published Report by P&S Market Report

Source: Marketwatch

Thursday, January 21, 2016

The key barriers to driverless technology adoption.

There are still a few years remaining before fully driverless cars will hit the road in significant numbers. Speed of adoption of this technology will depend on how fast the industry and governments can break down the barriers to adoption.

The financial barrier

One of the main barriers to adoption is cost. In 2010, Google’s self-driving technology cost around $150,000, of which $70,000 was just for LIDAR remote sensing technology. Obviously such a price tag is dissuasive, but mass production and R&D can do miracles; for instance Quanergy Systems announced last month that it will be introducing in 2016 a solid state LIDAR for less than $1,000.
Many car manufacturers, together with their OEMs, are looking at ways to consolidate and simplify the hardware. Many startups are also looking at a piece of the action, focusing on miniaturisation, sensor fusion and integration of controllers as potential solutions. Better optical systems that could replace LIDAR and radar technologies are also envisioned. Computational processing, which is still another large component of the overall price, will experience the usual exponential cost reduction.
Whatever the technological solutions that will prevail, one thing is certain – cost will go down. How quickly is still a question mark, but according to a recent studyfrom HIS Automotive, price for the self-driving technology will add between $7,000 and $10,000 to a car’s price in 2025, a figure that will drop to around $5,000 in 2030 and about $3,000 in 2035, the year when the report says most self-driving vehicles will be operated independently from a human occupant’s control.
Some other reports suggest that by 2030, the price of the additional technologies will fall under $1,000, at which point the autonomous option will cost probably less than the annual savings in insurance.

The legal barrier

As costs will come down inexorably, the next most important barrier is legal. In my opinion, and though these legal issues are real, they will be tackled in time to allow the advent of unmanned cars sooner than later.
The fact is that some US states, such as Nevada, Florida, California and Michigan, and countries such as Japan, the UK and France, have already created a legal framework to allow self-driving cars. Unfortunately, this framework is there more as a permission to test vehicles rather than creating the real legal foundation for driverless technology to share the roads with current cars.
These laws acknowledge that vehicle “operators” don’t need to pay attention but must avoid disturbing activities such as sendingtext messages as well as requiring a person behind the wheel at all time. As economical interests will prevail, more and more countries and states will legalise, in some form, self-driving cars. The question is: when will they tackle the real fundamental change originating from having no human being behind the steering wheel and the impossibility to incarcerate a robot car?
New laws will have to tackle this reality by defining the shared and individual liabilities between the future players: car manufacturers, onboard signaling system providers, car-to way-side communication providers (including V2V, V2C and V2I), control centre hosting the network information, road infrastructure providers and the car operator or owner.

The barrier of agreeing on safety standards

As long as driverless cars will be much safer than conventional cars, governments will find the way to redefine existing laws.
To be safer, driverless cars will need to adopt in a form or another the four safety principles we’ve described previously: block interlocking, forbidding two cars to be in the same zone at the same time; block signaling indicating to the next vehicles that no vehicle is in that road section; road and carriage integrity ensuring that no vehicles as departed from the driven car and that the road is in operational conditions; interoperability, ensuring that physical and conceptual integration is possible.
All stakeholders will need to agree on how these safety principles will need to apply to all system elements, a daunting challenge for an industry well known for poor cooperation between major players.
Furthermore, when these conditions won’t be met, cars will need to adopt safety procedures or rely on fail-safe modes and redundancy features to take over, allowing vehicles to continue to run or stop safely. Authorities and homologation bodies will need to help define what these rules will be under all potential conditions. As lives are at stake, safety levels will need to be defined according to the expected automation level, with their testing procedures and integrated within standards.

The barrier of trust

For experienced drivers, putting their life into the hands of their car’s onboard computer won’t be easy. As passengers, they will need to trust their car as well as neighbouring vehicles in a few different ways.
From a telecom perspective, human beings will need to trust that the received signal comes from the car directly in front or on its side, and isn’t trying to hack into the car’s system or being sent by malicious people. Additionally they will need to trust that other cars are accurately reporting their state and not sending wrong messages.
From an onboard perspective, passengers will need to trust that the safety concepts are met, the algorithms are able to consider all potential situations accurately and that their car will react in a safe way, in case of failure. These are a few of the worries passengers will have, but as long as driverless cars can show that they are safer than humans, trust will be granted.

Government initiatives to eliminate barriers

Most countries with an automotive industry are pushing initiatives to position well their local champions on such a fundamental change of paradigm. The EU Government is tackling the barriers to adoption within its 2020 Horizon plan.
Through its mobility for growth 2016 and 2017 work program, it will be allocating funds to safety and intelligent transport, including a 25m Euro large-scale demonstration of cooperative ITS (work package: MG-6.2-2016).
Furthermore, it is also earmarking in its call “Automated Road Transport” 64M (in 2016)and 50M euro (in 2017) for projects helping define how to break-down these barriers:
  • ART-01-2017: ICT infrastructure to enable the transition towards road transport automation
  • ART-02-2016: Automation pilots for passenger cars
  • ART-03-2017: Multi-Brand platooning in real traffic conditions
  • ART-04-2016: Safety and end-user acceptance aspects of road automation in the transition period
  • ART-05-2016: Road infrastructure to support the transition to automation and the coexistence of conventional and automated vehicles on the same network
  • ART-06-2016: Coordination of activities in support of road automation
  • ART-07-2017: Full-scale demonstration of urban road transport automation
For the SMEs interested in receiving funds by participating in these programs, you can find out more here. However, you need to hurry up as the deadline for submitting your project is January 2016 for many work packages.

Source:ConnectedCarTech

Thursday, January 14, 2016

This Bluetooth router connects to 22 devices from 1,000 feet.

Surprisingly enough, Bluetooth has become one of the best methods for connecting smart devices. Internet of Things standards like Zigbee and Z-Wave still have plenty of issues, and WiFi, while popular, draws too much power to be effective for managing several smart devices. Meanwhile, most devices support Bluetooth by this point, and it can also maintain connections without using too much battery life. But Bluetooth is still has issues: Its range is relatively short (around 30 feet) and many devices can only be paired with one other device.Enter the Cassia Hub, a $100 Bluetooth router — yes, router — that aims to solve those issues. The company claims it can extend the range of Bluetooth connections up to 1,000 feet (in open air), or pass through up to three walls without many issues. Similar to a WiFi router, it can also connect to 22 separate Bluetooth devices at once.Instead of sending commands to Bluetooth devices directly, or using their own apps, you use the Cassia Hub's app to control everything connected to it. And perhaps the most intriguing feature: It also lets you control your Bluetooth devices when you're away from home (since it's also connected to your WiFi router).Cassia was founded by Felix Zhao, an ex-Cisco engineer and former executive at Aruba Networks, which specializes in WiFi products. He points to three things that make the Cassia Hub possible (and why it's the first true Bluetooth router): A specialized antenna built specifically for Bluetooth; significant tweaks to increase the sensitivity of the Blutoototh stack; and noise cancellation technology, which leads to cleaner overall signals.With all of those features, the Cassia Hub would be an easy sell to anyone who's been annoyed with Bluetooth's range or lack of flexibility. But, of course, there are also limitations with Cassia's approach. The company says it'll support most existing Bluetooth devices, but some may require additional tweaks in their app. It'll also need to work together with device makers to support proprietary Bluetooth Low Energy (LE) profiles. (The Hub also has a "transparent relay mode" which can extend the range of some Bluetooth LE devices, even if it doesn't recognize them.)
And since your Bluetooth speakers would actually connect to the Cassia Hub, instead of your device directly, you're also stuck using Cassia's app for all your music management. It supports Soundcloud and local music, but that's about it. Cassia says it's in talks with Spotify and Pandora, and it's also working on bringing AirPlay and Chromecast support to the Hub (which would let you send music to it with Spotify and Pandora's native apps). Cassia's problem is similar to Sonos, in that you're basically at the mercy of what its proprietary app supports.
Still, it's early days, and if Cassia addresses those initial issues it could end up being useful to people who've invested in Bluetooth gadgets. The prospect of being able to significantly extend the range of your favorite Bluetooth speaker, or manage a smart gadget remotely, is pretty tempting. And the company's goal of fixing Bluetooth's endemic problems is downright intriguing.
Zhao says even the Bluetooth Special Interest Group (SIG), which manages the standard, is excited by their work. We'll reserve final judgement for when we get our hands on the Cassia Hub. For now, it's clear the company has a lot of issues to deal with.
The Cassia Hub is available for preorder today, and it's expected to ship in the first quarter. The company is also launching several Bluetooth accessories, including a speaker ($100), multi-color LED light ($30, or $80 for a three-pack) and smart plug ($30).
Source: by Devindra Hardawar.Engadget

How Connected Vehicles work.

Connected vehicles have the potential to transform the way Americans travel through the creation of a safe, interoperable wireless communications network—a system that includes cars, buses, trucks, trains, traffic signals, smart phones, and other devices. In the past, the U.S. Department of Transportation (USDOT) has focused on helping people survive crashes. Connected vehicle technology will change that paradigm by giving people the tools to avoid crashes.

Why Connected Vehicle Technologies Are Needed 


Connected vehicle technologies aim to tackle some of the biggest challenges in the surface transportation industry—in the areas of safety, mobility, and environment.

 • Safety: According to the National Highway Traffic Safety Administration (NHTSA), there were 5.6 million crashes in 2013. The number of fatalities from vehicle crashes is falling but still accounted for 32,719 deaths. Connected vehicle technologies will give all drivers the tools they need to anticipate potential crashes and significantly reduce the number of lives lost each year. 

Mobility: According to the Texas Transportation Institute, U.S. highway users wasted 6.9 billion hours stuck in traffic in 2014. Connected vehicle mobility applications will enable system users and system operators to make smart choices that reduce travel delay. 

Environment: According to the Texas Transportation Institute, the total amount of wasted fuel topped 3.1 billion gallons in 2014. Connected vehicle environmental applications will give motorists the real time information they need to make “green” transportation choices. Connected vehicles feature safety warnings that alert drivers of potentially dangerous conditions — impending collisions, icy roads and dangerous curves — before the driver is aware of them. The technology is expected to reduce unimpaired vehicle crashes by 80 percent. 

How Connected Vehicles Will Work 

Safety-related systems for connected vehicle technology will likely be based on dedicated short-range communications (DSRC), a technology similar to WiFi. DSRC is fast, secure, and reliable. Non-safety applications may be based on different types of wireless technology. Cars, trucks, buses, and other vehicles will be able to “talk” to each other with in-vehicle or aftermarket devices that continuously share important safety and mobility information with each other. Connected vehicles can also use wireless communication to “talk” to traffic signals, work zones, toll booths, school zones, and other types of infrastructure. The vehicle information communicated does not identify the driver or vehicle, and technical controls have been put in place to help prevent vehicle tracking and tampering with the system.


see more at 

Tuesday, January 12, 2016

Cellular technologies such as 3GPP LTE-M ‘won’t be realised until at least 2020

John Horn is the CEO of US-based Ingenu.
Ingenu is building a ‘Machine Network’ designed specifically to meet the demand for connectivity from machine-to-machine (M2M) and Internet of Things (IoT) devices. 
Horn says, “They say that the best predictor of the future is the past. With that in mind, it’s quite easy to predict when LTE-M may become a real IoT option. The 3GPP has been working on Rel-12 and Rel-13 to establish standards for what machine-dedicated LTE connectivity might look like.
“Looking back, this story is awfully similar to the early beginnings of LTE. LTE standardisation discussions began in earnest in 2004. Today, more than 10 years later, LTE continues to be rolled out. Sure,2 he concedes, “many lessons have been learned and capital investments made, but we still face an ecosystem that is not nearly as mature as the handset ecosystem was several years ago.”
“Because of that,” Horn says, “I believe that cellular technologies such as 3GPP LTE-M won’t materially be realised until at least 2020. When you look historically at how long it takes for all of the pieces to be pulled together for a new network standard, even 2020 may be optimistic.”
He also believes that the 2G sunset is going to cause more industry chaos than anyone expects. “The sunset has already started, and organisations all think they have plenty of time to transition their IoT strategy beyond 2G. They don’t. We’ll begin to see a series of strange bedfellows as partnerships emerge to help the growing demand M2M and IoT are putting on networks. Low Power Wide Area (LPWA)-type networks will prove a strong competitive force to cellular as networks are built out and traffic demands increase.”
source: IoTNow

Monday, January 11, 2016

The Internet of Things: A New Path to European Prosperity.Every euro spent on IoT solutions could produce up to €12 in productivity gains, purchasing power, and time savings.

A.T. Kearney's third annual edition of its Europe’s High-Tech Industry studyfinds that within the next 10 years the EU28 market for Internet of Things (IoT) solutions will be worth €80 billion and its potential value for the economy could reach nearly €1 trillion, that to say 7% of EU’s GDP. Thus every euro spent on IoT solutions could produce up to €12 in productivity gains, purchasing power, and time savings.


The Internet of Things and European Competitiveness The Internet of Things. It is a phrase that is equally applied to our using a cell phone to control a home’s temperature from hundreds of miles away, or an airline’s using sensors on its fleet’s engines to save money in fuel consumption. Even more profound, for Europe and its 28 member countries (EU28), IoT means the opportunity to unlock 7 percentage points of GDP growth by 2025 through productivity improvement and value redistributed to end customers. A.T. Kearney recently conducted unique, in-depth research and analysis of IoT to more thoroughly understand the value it offers the EU28 and the ways that member countries can best address the hurdles that will keep them from realizing its fullest benefits (see sidebar: About A.T. Kearney’s Analysis of IoT in the EU28). Our overarching finding: Within the next 10 years the market for IoT solutions will be worth €80 billion, and its potential value for the EU28 economy could reach nearly €1 trillion (see figure 1).




see more at ..


Download the full Report click here 

Source: ATKearney

Tuesday, January 5, 2016

New technology will extend Wi-Fi solutions for the Internet of Things

With industry momentum mounting around a low power Wi-Fi® solution, Wi-Fi Alliance® today announced the Wi-Fi HaLow™ designation for products incorporating IEEE 802.11ah technology. Wi-Fi HaLow operates in frequency bands below one gigahertz, offering longer range, lower power connectivity to Wi-Fi CERTIFIED™ products. Wi-Fi HaLow will enable a variety of new power-efficient use cases in the Smart Home, connected car, and digital healthcare, as well as industrial, retail, agriculture, and Smart City environments.
Wi-Fi HaLow extends Wi-Fi into the 900 MHz band, enabling the low power connectivity necessary for applications including sensor and wearables. Wi-Fi HaLow’s range is nearly twice that of today’s Wi-Fi, and will not only be capable of transmitting signals further, but also providing a more robust connection in challenging environments where the ability to more easily penetrate walls or other barriers is an important consideration. Wi-Fi HaLow will broadly adopt existing Wi-Fi protocols and deliver many of the benefits that consumers have come to expect from Wi-Fi today, including multi-vendor interoperability, strong government-grade security, and easy setup.
“Wi-Fi HaLow is well suited to meet the unique needs of the Smart Home, Smart City, and industrial markets because of its ability to operate using very low power, penetrate through walls, and operate at significantly longer ranges than Wi-Fi today,” said Edgar Figueroa, President and CEO of Wi-Fi Alliance. “Wi-Fi HaLow expands the unmatched versatility of Wi-Fi to enable applications from small, battery-operated wearable devices to large-scale industrial facility deployments – and everything in between.”
Many devices that support Wi-Fi HaLow are expected to operate in 2.4 and 5 GHz as well as 900 MHz, allowing devices to connect with Wi-Fi’s ecosystem of more than 6.8 billion installed devices. Like all Wi-Fi devices, Wi-Fi HaLow devices will support IP-based connectivity to natively connect to the cloud, which will become increasingly important in reaching the full potential of the Internet of Things (IoT). Dense device deployments will also benefit from Wi-Fi HaLow’s ability to connect thousands of devices to a single access point.  
“Wi-Fi Alliance programs have been instrumental in shaping and guiding the industry,” said Phil Solis, ABI Research. “Wi-Fi’s portfolio of technologies continues to address market needs, and Wi-Fi’s evolution will allow it to address a variety of new use cases.”
Wi-Fi HaLow complements existing Wi-Fi technologies and expands Wi-Fi Alliance’s overall portfolio with a low power solution that will enable Wi-Fi to maintain its critical role in the IoT. Additional IoT-related activities are underway in Wi-Fi Alliance that are helping to further proliferate Wi-Fi in the Smart Home and other segments. In particular, Wi-Fi Alliance is developing a new secure and simple way to connect and configure devices without a display or input mechanisms, as is the case with many Smart Home devices today. In addition to an expanding list of programs to address unique market needs, Wi-Fi Alliance recently announced a new membership category that will enable a wider variety of devices not historically thought of as high-tech, including vacuums and door knobs, to include certified Wi-Fi connectivity.
For more information on Wi-Fi HaLow, please visit: www.wi-fi.org/wi-fi-halow
Source: Wi - Fi Alliance

Monday, January 4, 2016

Why Dubai Might Be The World's Smartest City By 2017

Launched in 2014, Dubai’s Smart City initiative, Smart Dubai, is driven by the vision of His Highness Sheikh Mohammed bin Rashid Al Maktoum, Vice President and Prime Minister of the UAE and Ruler of Dubai, to make Dubai the world’s smartest and happiest city. The Smart Dubai initiative is comprised of six focus areas: smart life, smart transportation, smart society, smart economy, smart governance and smart environment. The project is designed to encourage collaboration between the public and private sectors to achieve all the targets in each of the six focus areas, and they expect 1000 government services to go smart over the next few years.

Below are listed the main Initiative. 
  • Connected Law Enforcement – Connected police cars (multi-radio including Wi-Fi) and officers are the center of this initiative with technology in the cars and dashboards feeding a police operations center. Real-time information is available on the status of personnel (heart rate, location, and horizontal/vertical position) as well as video and GPS feeds for the vehicles themselves.
  • Connected Lighting and Parking – A network that lets you locate and reserve parking spots, along with providing directions to get there. The lighting system has adaptive lighting control, dimming, power consumption and fault detection among other features.
  • Connected Waste Management – Functions include current capacity of bins, route optimization, emergency requests for empty.
  • Connected Bus and Bus Shelters – Real-time information on bus routes, current bus location, occupancy numbers and when they will arrive at your location. All of this information is available from mobile applications or at kiosks located physically in bus shelters (Note: because of the heat bus shelters are enclosed in Dubai).
  • Remote Expert Centers for Government Services – One of the more useful applications I saw, these small, remote centers have audio and video connections to a manned government operations center as well as printers and scanners to allow you to transact normal government business from within the remote center applications for business licenses, driver’s license renewal, etc.).
If you are interested in video demonstrations of the Dubai Smart City implementations, they can be found here:
Source: Mike Krell.Forbes
Mike Krell is an analyst at Moor Insights & Strategy covering the Internet of Things (IoT)