internet of things

How IoT Plays A Role In Developing Sustainable Transportation

sustainable transportation iot
By Megan Nichols
View the original article here.

The Internet of Things is transforming the modern world in manifold ways. It’s making our homes smarter, our stores more connected and informed, our vehicles more powerful, and our equipment — especially the industrial variety — more capable.

“IoT” is a blanket term that refers to the entire network of connected devices, from smartphones to household appliances. IoT devices have the ability to connect with local or public networks to transmit, receive and process data streams. This means that, as a society, we can collect a lot more information about how our devices are operating. It also means we can interface with them remotely to do things like open a garage door or turn on a light from hundreds of feet or even miles away.

This technology offers a variety of benefits, including more efficient use of resources and improved sustainability practices. That’s especially true of the transportation sector and modern travel.

Airports and Air Travel

The IoT provides an added layer of convenience for customers and better sustainability for parent companies.

For customers, the technology can be used to improve their travel experience. Miami International Airport, for example, relies on connected smartphone applications to provide real-time information to passengers about campus events and locations, baggage claim info, boarding instructions and more.

As for airports themselves, the technology can help eliminate excess waste produced as a result of high energy use. Smart bulbs and connected light fixtures, for instance, can turn off lights in empty areas of the campus. Efficient thermostats can better regulate and coordinate air temperatures within the facility — not just for keeping people more comfortable, but also to use less power in the process.

Logistics and Public Transportation

Whether you’re talking about buses, above-ground trams, or high-speed trains, the logistics involved are incredible. A transport company must consider how much room they have, how many people have booked a trip, what’s changed — such as who’s canceled or joined — and even how much luggage or storage space is available.

But it doesn’t stop there. Vehicles need fuel, supplies, and maintenance — and they’re all directly tied to a strict and comprehensive schedule. Like you see with flights, if a bus or other transport is late, it affects the entire day’s schedule.

IoT technology can help with this by providing more nuanced and real-time details about the goings-on within a facility or transport. This provides much more oversight for transportation managers and planners, if not automating the entire field outright.

GPS modules can be used to track each transport with up-to-date stats like speed, fuel levels and arrival times. Bluetooth beacons can be used to deliver local information to customers’ phones and devices, with real-time alerts about delays or on-time schedules.

There’s incredible potential here, and the industry is definitely starting to catch on.

Smart Roads

As you’d expect, smart and connected roads can help manage traffic patterns, accident response, and other related problems. Imagine receiving traffic updates on your phone directly from the very road beneath your vehicle’s tires. Highways and street surfaces can be outfitted with advanced sensors to collect usage information, which is then fed into a municipality’s traffic infrastructure. The system would be connected to traffic lights, security cameras, smart roads and much more.

It’s essentially a comprehensive modern and smart traffic management system. Sensors could pick up the impact of an accident, for example, and report that information to a remote agency or even take action via the network. As a result, nearby drivers are informed of the crash, traffic lights are changed to reflect the issue, and vehicles are rerouted until the area is cleaned up.

The technology can also be used for public road services like tollway, bridge and tunnel management — and even parking meters in urban areas.

Smarter Parking

Imagine pulling up to a parking meter, paying your fee on a mobile app, and then exiting your vehicle to be on your way. Upon your return, you simply hop in your car, tell the meter you’re leaving and away you go. The system registers the open space and alerts other drivers nearby looking for a space. As a result, the nearby roadways remain clear and less congested.

In urban areas and bustling cities, parking can be a real problem for the entire community. It can cause traffic disruptions and delays, accidents, and even dangerous scenarios — like when a vehicle is parked in front of a fire hydrant or unauthorized area.

Disney’s new parking garages in Disney Springs, Orlando, are a great example of how parking is getting smarter. Each parking row has a series of lights that turn red or green depending on whether or not space is available. As the end of each row is a digital display that shows the number of open spaces. It’s all updated in real-time so drivers can find a space quickly without driving around aimlessly. The system can also be used to locate vehicles for guests who are lost.

Supply Chain Management

In addition to self-driving transport vehicles and fleets, various other forms of transport in the supply chain are being outfitted with IoT technologies. This includes shipping trucks, containers, boats and ships, planes and more.

This provides a great deal of insight for management crews about travel times and external factors such as traffic or weather events. As with public transport, technology can be used to make more efficient use of resources like fuel as well as cut down on overall waste. More importantly, it can be used to identify new routes, transport solutions and even operational improvements.

Smart, Connected Technologies Are the Future

In the consumer market, IoT devices can help homeowners use their power supply more efficiently by cutting down on consumption, making better use of it in general and offering several new functions. Smart thermostats, for example, can auto-regulate heating and cooling in the home to make the space more comfortable and also eliminate excess use of electricity.

The same thing is happening in transportation, only on a much greater level. When an entire public transport operation is outfitted with more efficient vehicles and fuel-measuring sensors, for instance, the impact is much larger.

This shows that IoT and related connected technologies are not just a fad confined to modern-day operations — they are absolutely going to shape the future of the world. Backed by powerful data and insights, the organizations of tomorrow will be more efficient, more sustainable and much less impactful on the environment.

IoT, LEDs, lighting, and the future of workplace planning

In the real estate industry, understanding how our buildings are used is critical to understanding how to manage our buildings.

View the original article here.
By Brad Pease

blueprint

What is IoT and why is it useful to workplace planning?

IoT = Internet of Things: The interconnection of computing devices embedded in everyday objects, enabling them to send and receive data via the internet.

In the real estate industry, understanding how our buildings are used is critical to understanding how to manage our buildings. Buildings may be built of brick and mortar, but they are not static; they constantly evolve based on the needs of their occupants. People change their schedules and their locations within a building; and the people and technology that they need access to change too.

For building owners, understanding how your second highest investment (your real estate) interacts with your highest investment (your people) is critical to your company’s long-term financial success. Do you have too much space? Not enough? The right type of space? The right quality of space? These are all questions that you need a good source data to understand, and the dataset should allow you to trend how your building is used. This trending data empowers your workplace planning team to spot opportunities to make meaningful changes.

A new data source for workplace planning: IoT-connected lighting

Workplace planners need a device to collect data. Rather than adding a ton of sensors to a building – or worse, to people – designers need something that is in every room, and that indicates how the space is used. The answer is likely above you right now. It is indicating that you are present, and is tuned to the needs of your current task. The answer, of course, is the lights.

IOT lighting data can help owners establish a workplace design strategy. While this isn’t the typical use-case for lighting system data, it can be used to understand space utilization and adds a powerful dimension to workplace planning and decision making.

As every space in a building requires lighting, and the only reason we have lights is for people, lights are the ideal candidate to use as a data source; and lights don’t need a lot of added intelligence to be a great data source.  Here are three useful ways to track lighting data for workplace design:

  • Whether a light is on or off indicates if the room is occupied.
  • The number of fixtures or lighting scenes that are used in a room will indicate the type of function that is occurring in that room.
  • The total hours of fixture use can indicate the utilization of the space and, in the case of multi-use spaces, the most frequent activities that users engage in.

When all the above is tracked, trended, and analyzed, you will understand: which spaces in your building are used the most; which spaces don’t get used at all; and what type of spaces are over-used, potentially leading to resource constraint that your employees need to do their work. Trending the data across a building or campus will allow you to optimize your investment in changes to your real estate, perhaps allowing you to invest in a new way of using your space based on the best data sources available: your employees. That’s better than investing in a new building!

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Powering LEDs through the Ethernet

The cost to implement an IOT lighting system can be reduced through the advancement in LED technology. Using LEDs reduce power consumption plus LED lights offer more options as to how to power those lights. LEDs are so efficient that it is possible to power them using an ethernet cord, eliminating a traditional power cord. Called Power Over Ethernet (POE), you can both control and power an LED light with one cord instead of two.  The cost to install a power cord is the same as the cost to run Ethernet, and it eliminates the need for wireless or additional control wires in the fixtures – which results in a lower cost of installation. And using POE, light fixtures are suddenly accessible for IoT uses because they are connected to a two-way data line.

Once you have Ethernet connectivity to every fixture, the controllability and data collection opportunities sky rocket. You don’t need smart fixtures – you need just one centralized smart controller that sends, tracks, and trends fixture use. Once connected to a cloud-based interface, facility managers and building owners are granted instant information on their building utilization. Simply add POE technology to your next lighting upgrade, and you’ll open a whole new data source for your workplace design strategy team.

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The wellness connection: how a POE- and IOT-connected lighting system contributes to an optimal work environment

POE- and IOT-connected LED fixtures can be used to increase health and wellbeing along with optimized energy performance. LEDs can modify the spectrum of light being supplied, which in combination with dimming capability, allows a lighting designer to optimize a space for human cognitive performance.

Humans evolved outdoors for thousands of years before moving inside to work under artificial lighting. People perform better, feel better, and enjoy their surroundings more when connected to nature. And natural light has thousands of permeations a minute, and constantly changes to reflect the time of day, weather, and surrounding surface reflections.

LEDs can be tuned to match the natural cycles of daylight, with blue hues in the morning giving way to red hues in the evening. This circadian lighting pattern allows interior spaces to mimic the natural rhythms of the outdoors. Programming artificial lighting to match natural light, has proven to improve cognitive performance. It can also help building occupants to wake up, fall asleep quicker at night, and stay refreshed longer.

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The future is bright

IoT-connected lighting is more than a technology trend; IoT-connected lighting allows us to find new uses for old things and reframe our understanding of items that were once viewed as static. Lights, their power, and their controls can provide a rich data source that will allow you to optimize your real estate and your people, which improves the future of your business. IOT-connected lighting takes the guesswork out of many real estate needs, contributing to sustainability and wellness.

3 tips for designing workplaces that support culture, brand, and community

An authentic culture cannot be forced but can be encouraged and supported.

By Hakee Chang, Denise Darrin and Lisa Weeks, Building Design & Construction, 2/2/2017

View the original article here.

workplace culture sustainabilityThe workplace has evolved exponentially over the past decade, from large, uniform workstations and offices to efficient open plans and auxiliary areas. Technology has advanced from desktop computers and landlines, to laptops, and mobile apps. Innovation in technology has driven an increase in employees’ productivity and efficiency, and innovation in design has strategically followed.

However, effective and engaging workplace design doesn’t stop with a response to technological and real estate needs. It must go further, supporting the creation and integration of a company’s culture, brand identity, and overall community.

CURATED CULTURE

The most integrated cultures are co-created by leaders and teams. They are shared, organic, and capable of evolving. An authentic culture cannot be forced, but can be encouraged and supported. Without direct participation and buy-in from those involved, a company’s culture can end up a “mission statement on business card” or a “tagline on a wall” – noticed upon move-in, but quickly forgotten thereafter.

We have been fortunate to see these principles in action with a number of our key clients. In particular, technology companies are dealing with cultural change on almost a daily basis as a result of rapid growth. For example, one financial technology client has an ever-adapting nature and willingness to learn. Their leadership embodies an approach that has allowed exceptionally talented people of various backgrounds to come together with a unified and understood purpose.

The ethos of any company is the driving force. People connect over shared stories and experiences. Our job as workplace designers is to clearly understand the experiences of each and every client. What are their company’s particular drivers and values? How we can create a space that reflects and enhances those values and support the natural curation of their culture?

 BUILDING BRAND AWARENESS

Understanding a client’s brand in the context of external perception and internal practices are two crucial elements to designing a meaningful workplace. Through visioning and programming interviews, we find that office staff often seeks their work environment to “walk the talk.” It has to be authentic and reflect the reasons why they joined the company, and offer opportunities to highlight how their contributions matter.

As a first step, we typically will create overlapping layers of an “experience map” to begin building a workplace design that contributes to the client’s ethos. We map out various use scenarios through points of view, such as anticipating the tour our client may give to a candidate or business partners, an all-hands meeting, or an event for external community engagement. These maps overlap with curated moments where people can connect to individual stories or testimonials that are both inspirational and aspirational.

We recently worked with a technology company whose focus is on physical activity and health, and we incorporated design elements to encourage movement. For example, we designed meeting spaces with treadmills, social and collaboration spaces along popular walking routes, and adaptable spaces with natural light, comfortable temperatures, and views. Since the company offices are spread between buildings within a dense urban location, we leveraged the city as a vital active conduit to tie both the company’s brand and connect staff with their customer base. Allowing workflow through the neighborhood created a first-hand brand awareness that extends beyond the interior office environment.

COMMUNITY GUIDELINES

Technology has allowed the traditional office to transform into a dynamic working environment. The workplace is no longer built on “my” office or “my” desk, but has developed into “our” space: a place for community.

Technology has provided flexibility, choice, and options to employees – giving everyone the ability to decide where, how, and when they work. Yet, the reduction of individual workspace has created a need for smaller neighborhoods within the larger community. To help alleviate the possibility of feeling “crowded” it is essential to effectively distribute varied opportunities for different work styles, while providing adequate support and shared spaces.

All of these factors have prescribed that companies establish community guidelines, the rules of engagement for the workplace. These guidelines address issues from etiquette to functionality.

Our Minneapolis office recently relocated and moved to an activity-based “free address” work environment with no assigned seats to untether talent from desks and empower employees with choice. Etiquette guidelines were created to assist in this new environment, including:

  1. Individuals are expected to clear their workspace of all materials if out of the office for more than four hours, and when they leave at the end of the day, so the location can host another user.
  2. Meeting rooms have different behaviors and etiquette associated with them. For instance, huddle rooms are non-reservable and dedicated to more informal, spontaneous meetings or calls.
  3. Project storage, personal storage, and office supplies have centralized home bases outside of the immediate workstations to prevent duplication and waste.

As an overall goal, the new workspace recognizes the value of a variety of workstyles: from large group meetings to spontaneous interactions to individual heads-down work. The studio supports this spectrum of work with project rooms, huddle rooms, pin-up spaces, and focus rooms.

Community guidelines present the parameters for employees to respect each other and their work places and to follow the “Platinum Rule”: treat others the way they want to be treated.

10 companies moving up in smart buildings

By Heather Clancy
View the original article here.

smart-buildingsThe phrase “Internet of things” has become a convenient catch-all for all manner of technologies that carry this common characteristic — they’re capable of sharing their data not only with each other but also with other information technology systems, enabling far deeper insights into how well they’re running and what’s going on around them.

In 2015, more than 15.4 billion gadgets fell into this uber category, according to data from market research firm IHS. That number could double by the end of 2020, and then again by the end of 2025. These “things” can be installed virtually everywhere, from factory floors to streetlights to water pipes — cities alone could spend at least $20 billion on sensor networks by 2020.

But one area to watch closely from sustainability perspective will be technologies related to buildings, both commercial and residential. Think of it this way: the Internet of things (aka IoT) is crucial for broader adoption of smart buildings. That will have big implications for how companies handle energy management. And for the next three years at least, IoT will be more pervasive in smart commercial buildings than anywhere else, suggests consulting firm Deloitte.

Things are certainly pointing up. Revenue related to installations of sensor-equipped lighting, climate control equipment, thermostats, and other automation systems could quadruple over the next decade to about $732 billion, predicts Navigant Research in a report published in early December.

“Connected or IoT devices in commercial buildings or homes enable a variety of applications and provide benefits related to automation, convenience, and, of course, energy efficiency — and these benefits are starting to resonate among building managers, homeowners, and even renters,” said Navigant principal research analyst Neil Strother.

More evidence that interest becoming more serious: ABI Research predicts that revenue related to IoT-enabled smart building technologies should grow to more than $8 billion in 2020, compared with just $625 million last year. The bulk of that money will be related to smart lighting and “intuitive” HVAC control systems, according to the research firm.

“IoT platforms such as GE’s Predix, IBM’s Watson, and SAP’s HANA, in collaboration with facility service providers, like CBRE, ISS World, and ENGIE, are gradually creating inroads by integrating multiple building automation systems to deliver a unified facilities management solution,” said ABI analyst Adarsh Krishnan. “the ‘make or buy’ dilemma of whether to develop the solution in-house or collaborate with a third-party technology vendor.”

What makes the transformation so hard, of course, is the long life expectancy of heating, ventilation, and air-conditioning systems — usually at least 15 years, and counting.

But leading manufacturers are working diligently to instrument and automate their systems through IoT hardware and software, so that commercial buildings can respond better to environmental stimuli or a company’s energy efficiency policies. Here’s a cheat sheet of 10 big players to watch closely in the upcoming year (presented alphabetically).

Cisco

Part of San Jose, California-based networking giant Cisco’s “Internet of Everything” mantra is an energy efficiency concept it started pushing more aggressively in early 2016 called the “Digital Ceiling.”

The idea is to consolidate smart lighting networks and other Internet-connected devices into a centralized dashboard that can be controlled via a smartphone application. The system includes smart lighting that doesn’t require a separate electricity source—they are powered by the Ethernet network itself. Cisco lined up an impressive list of partners, including LED lighting pioneer Cree, to help evangelize the idea.

Hitachi

There’s been plenty of buzz about the 106-year-old Japanese conglomerate’s compelling business model for microgrids. Back in May, however, Hitachi began touting its IoT strategy, which is based on a technology called Lumada.

This platform will be relevant across a broad range of applications not just smart buildings, including connected vehicles, although details about the technology are just starting to emerge. “While it is still very early days in the IoT platform market, the landscape is crowded, making it difficult for new vendors to differentiate themselves,” said Christian Renaud, an analyst for 451 Research. “Hitachi’s extensive expertise in operational technology and IT gives them a unique understand of the fundamental requirements to build and deploy IoT solutions at scale.”

Honeywell

Honeywell’s IoT strategy already touches about 10 million smart buildings worldwide. One of the Morris Plains, N.J.-based company’s latest forays is a mobile app — which sounds similar to technology from startup Comfy — that lets building occupants report issues with heating or cooling. Basically, people become “sensors” alongside digital counterparts such as sensor. “Occupant engagement is an increasingly important aspect of intelligent building solutions,” said Navigant analyst Casey Talon.

IBM

The tech giant has been involved with a myriad of smart-this-and-that initiatives related to its Smarter Planet campaign. Now, IBM, based in Armonk, N.Y., is putting the firepower of its Watson artificial intelligence and data analysis software behind its projects that make buildings smarter.

One of its biggest customers for the technology is ISS, a facilities management company that will use Watson in more than 25,000 buildings to assess readings from sensors on windows, doors, chairs, food dispensers, air conditioning systems and so on. The sensors on doors, for example, can help commercial kitchens within these facilities figure out how many meals to cook for lunch, helping cut back on food waste. “Putting a ‘human touch’ in buildings helps to increase employee productivity, decrease absenteeism, and makes a better impression on visitors,” said ISS CEO Jeff Gravenhorst.

Deals beween mammoth players in building automation and connectivity, such as the one between Johnson Controls and Cisco, are becoming more common.

Johnson Controls

Already a big proponent of the push to net-zero buildings and the idea that buildings should “talk” to each other, $37.7 billion Johnson Controls became an even larger force in IoT technologies when the Milwaukee, Wisconsin, company merged in September with security services firm Tyco. Johnson Controls allied with IBM on the smarter building cause back in 2010, and moved closer to Cisco earlier this year (it’s one of several companies supporting the Digital Ceiling framework).

Legrand

The French-born electrical component manufacturer, which has been taking a deeper interest in sustainable business practices across its own operations, launched its IoT initiative dubbed ELIOT in November.

Legrand sees its technology as the glue tying together automation technologies from the likes of Samsung and Cisco. The effort even supports Alexa, Amazon’s voice-controlled home automation gadget, which is being engineered to handle tasks such as adjusting lights or temperatures. It helps that $4.5 billion Legrand’s sales for connected devices were more than $350 million in 2015, up 34 percent. “Legrand is built in, not simply plugged in,” said Stephen Schoffstall, chief marketing officer for the company. “This distinction is critical when you consider that ELIOT is an expression of Legrand’s determination to evolve the experience of living, working, and operating in buildings — and to minimize the impact those buildings will have on the environment.”

Panasonic

The Japanese company is already a well-known player in green building technologies such as energy-efficient lighting, refrigeration, air conditioning, heating and renewable energy. Like its biggest peers and competitors, it is prioritizing investments that use data from these systems to help them run ever-more efficiently. One example is its agreement with Germany’s Schneider Electric, announced in October, under with the two companies are collaborating on wireless technology that connects Schneider’s building management system with Panasonic HVAC systems that use variable refrigerant flow (VRF) technology. Translation: the amount of energy they require can be adjusted more finely than previous generations of the equipment.

“By combining the power of building management with cutting-edge VRF technology, we are able to help our customers further reduce capital and operating expenditures and reach new levels of sustainability,” said Toshiyuki Takagi, executive officer of Panasonic Corp., and president of Panasonic Air-Conditioner.

Schneider Electric

The energy management specialist, which has been especially vocal in the past about smart cities projects, overhauled its smart building product line called EcoStruxure in late November. You might think of Schneider first as a hardware company, but its partnership with cloud services giant Microsoft is focused on helping companies analyze operational data more efficiently. Its aforementioned partnership with Panasonic is also powerful.

Siemens

An emerging force in commercial and community microgrids, German conglomerate Siemens is also shoring up its IoT expertise. During 2016, it announced separate partnerships with IBM and consulting firm Capgemini to build even more credibility. The IBM pact centers on creating a cloud service to help corporate real estate managers gain access to energy efficiency metrics for their facility portfolios. The deal with Capgemini has a similar goal.

Verdigris Technologies

This San Francisco upstart is using artificial intelligence to collect information from a building’s electrical panels and then analyze these “fingerprints” for opportunity to optimize settings and to predict possible maintenance issues that could boost power consumption.

Verdigris raised $6.7 million in an October venture capital round that was led by contract manufacturer Jabil and Verizon Ventures, bringing total funding to about $15 million. The company is doing well helping companies in the hospitality sector reduce electricity usage; Hyatt, Marriott, and Starwood Hotels are all customers.