Smart City: Stay Connected with Future-Proofing
Govciooutlook

Smart City: Stay Connected with Future-Proofing

By Gov CIO Outlook | Wednesday, August 21, 2019

Smart CityFuture-proofing is the method of foreseeing the future and developing processes of reducing the effects of stresses and shocks of future events.

FREMONT, CA: Sensors today are tasked to do every other work—they identify when a central system is nearing failure and likewise optimize the indoor conditions to save energy. So, with the dawn of smart technologies like Artificial Intelligence (AI), IoT, and cellular network, what shape will the buildings take in the upcoming years remains the pressing question.

It is well known that sensors and the sum of data they generate through the Internet of Things (IoT) are making edifices smarter and industries more efficient. However, there remains skepticism around the potential of smart cities and IoT and intelligent cities while businesses strive to put them into practice. Future-proofing is the method of foreseeing the future and developing processes of reducing the effects of stress and shock of future events. Future-proofing spins around the term devolution, and while today’s technologies possibly will proffer advantages over an old building, they will be considered archaic amid technology in the future.

Future-proofing buildings for connected cities beg for a few questions. What kind of foundation is required for the ever-increasing data demands? What sort of actionable actions derived from the gathered data can be employed autonomously and with what protections? Lastly, what should the facility administers be doing at present to step up with the preparation of upgrading the building infrastructure?

Technology is advancing so swiftly that the building for requirements of today also means building for the potential of tomorrow. While today’s building sensors recognize how much energy is used on a given day, tomorrow’s buildings can estimate and forecast energy risks and needs for buildings. Besides, the sensors also automatically assign and optimize energy and other resources to the structures that require them while storing, conserving, or reallocating in places that do not. The aggregation and collection of data are vital, but the actionable measures that can positively impact user efficacies augment the resident experience. Additionally, the information also advances the building’s performance, and the coupled citywide connections are where the systems show their most potential value.

Construct Open IoT Platforms for Smart Cities Keeping the Future in Mind

When users come across a new technology, they switch and upgrade to it with ease. But when it comes to smart buildings, it is not reasonable to knock them down and then construct and shape it to the required needs of technology upgradation. Preferably, the existing infrastructure, programming software, or device investment should be able to leverage to the hilt for a good return. The sound returns are why engineering professionals need to propose long-term future-proof systems when improving the buildings.

One among the essential elements to mull over is an open platform for smart building IoT services. Open platforms are of assistance because they can be examined and upgraded according to the requirements. The platforms mainly help in building a central doorway to connect different sensors and devices, thereby advancing association. The improved interconnection is, for the most part, vital when structuring smart cities. Additional sensors are already being installed across areas, and more will be connected to other infrastructure, like utilities, transportation systems, and even commercial consumer communication platforms. Extra sensors denote more data, and open-source tools are constructive for gathering and processing large amounts of data along with ensuring future integration possibilities.

For a Smarter Tomorrow, Keep Up-To-Date with the Analysis Today

IoT sensors are set up in buildings to accumulate data on indoor ecological conditions, energy usage patterns, and trends. Some of the use cases include tracking and wayfinding movement all through the building. The information will serve no purpose if it is not rightly collected, presented, and evaluated by the right people because the data needs to be lead to the desired result.

Construction, architecture, engineering professionals are progressively using smart 3D modeling to map, design, build, and administer buildings through a practice called Building Information Modeling (BIM). The data gathered from buildings can be fed into the BIM and studied to improve building operations management and to update future buildings projects.

The use of data to analyze how residents settle in the buildings provides clear insight into when amenities should be programmed to let in out-of-doors light. On the whole, the analysis helps in lowering energy costs and advancing dwellers’ productivity and satisfaction. Not only are the capabilities becoming core requirements, but they are also being used as a means to boost morale, occupant engagement, and overall work ethic. Moreover, the engaging elements can have an even more substantial impact than energy savings alone.

Further Developments

At present, IoT-powered buildings have highly developed upright capabilities that are solely centered on proper functionality. For instance, during peak hours, an entrance hall in a building may automatically be signaled to adjust the lighting to maintain absolute brightness proactively. Later the lighting setting can be glided to a lesser intensity when the sensor senses that people are not frequenting. 

While horizontal IoT platform approach encourages system interoperability that can advance overall building function and the resident experience over time. Advancements in ML and AL will further perk up the connected tasks automatically and dynamically and not just within a building, but also with neighboring structures and infrastructure. Now, machine intelligence can be replaced with a smart connection to extended parameters outside the building. For example, in a city where congestion takes place on the neighborhood street, traffic light can assist in letting the vehicles pass through and clear the traffic. Particularly for the people whose destination is not in the immediate vicinity, the sensors can save time and unnecessary traffic along with alerting the whole building of delays due to street jamming.

When engineers, architects, and construction professionals design and upgrade buildings, it is vital for them to try out the plan with open and practical platforms. In carrying out the process, there are many city-based activities can be connected. In addition, while constructing a new building, professionals can design with future objectives in mind.

Another impending instance is to make use of smart technology in future development by integrating big data. The integration is to make better decisions to upgrade the city’s infrastructure because better decisions might result in a boom in the economy.

A few years ago, future-proofing meant constructing resilient facilities with robust materials to let the structure last. While the process still stands right in the present day, but future-proofing has taken on an entirely new connotation as smart technology is making its way up into everyday life.

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