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From smart home, smart cities and many other fields Internet of Things (IoT) is helping enormously to achieve efficiency and better management of assets. It is time to associate IoT with water utilisation to ensure proper management for conserve water resources. Studies from the United Nations Development Programme highlights that poor water management is leading to water scarcity, and the situation will be worse if the water is not managed efficiently. To ensure water sustainability. for the long run, IoT capabilities can help a lot to achieve this, so let’s dive deep to find out how IoT can help toward smart water management.

Smart water management

A combination of different devices connected together wit analysis and report available on a single platform create a smart water management solution. Smart Water management is about using water conveniently without the least wastage through leaks and other reasons. Moreover, when we talk about smart water management it is also about increasing the quality of water, water pressures, levels,temperature, and many other critical factors that fall in the domain.

IoT real time information for  water management system

IoT platforms provide real time information about the water system enable to take smart decision at the perfect time without delays. Accordingly with smart sensors in IoT system, the water management system requires least human intervention to et tins done correctly.  

Another benefit of real time data, is to detect issues earlier and also to predictive  of failures that do not cause damage. For example avoiding i water pressures tat mint ave lead pipes breakage or machine damage.

If your water system is required maintenance, IoT sensors prompt you in advance about the correct time maintenance needs to be done. Real time information can help to prevent damages in the water system wic automatically create saving benefit and also enables to take smart decisions.

When you entire water system is well monitored, you will save in terms of energy, better operation and also less human intervention.

IoT sensors for better monitoring of assets

Sensors provide real time data to give signal  about the pressure of the water, pH temperature and many other things related to water and water resources.  A dashboard with different analytics enables to take smart decisions for your business, home, cities and other aspects. You will be able to have information about the water being consumed in a particular area, if there is leakage and  decisions can be taken towards better efficiency for water utilities.

Accordingly reservoirs or water tanks level can be monitored perfectly wit details about the level of water present and also information about  daily water consumption is also available.

Another great aspect will monitoring irrigation system to avoid wastage in tat segment. IoT sensors can determine when your plantation need irrigation or not depending on the soil conditions and weather conditions. Your plantation ets  the right amount of water at appropriate time to the desired place wit IoT smart sensors.

Internet of Things (IoT) is making our lives simpler, from connected homes to millions of smart sensors, IoT has now reached the pool sector. It is transforming the pool sector with embedded sensors to provide numerous functionings and remote controlling. From Chemical balancing, temperature, filtration and much more, your swimming pool can be maintained and controlled by the touch of a button. To connect your pools with IoT enabled automated pool systems for the perfect experience of smartness.

The concept of IoT taking  care of your pool

Extending the possibilities of offering a connected home to your backyard is the new happening of IoT. If you are tired of doing pool maintenance in the traditional way or you’re paying someone to do it for you, so why not save time as well as money and shift to a smart IoT automated system for the pool. Making it easier and simpler to take care of your pool,  IoT sensors and platforms offer you a lot of intelligent and efficient option to control and maintain your swimming pool. From monitoring your water chemistry on a 24/7, temperature to filtration, everything can be monitored and communicated to your smartphone. Additionally, providers of in the smart pool sector are partnering with a chemical manufacturer to create single-dose, pre-measured water-soluble pods for pools that can be release and control via sensors. With everything connected to platforms that communicated to your smartphone, you will be notified when your pool needs maintenance, chemical filtration and you do not need an expert to do that for you.

IoT enabled automated pool systems

IoT is currently the talk of the town and its application has been extended to the pool sector for high benefits.  Today controlling our every life remotely is becoming an intelligent aspect given an increase in mobility. Avoiding the need to be present near a swimming pool to be able to control the same is the best proposition that smart swimming pool can provide you.

Owning a pool and maintenance it can now be more affordable with devices telling you to step by step about the maintenance required, and the optimum level of chemicals to add. You do not need an expert to do that and it saves you money. Moreover, you get full control of the chemical level of your pool and escape from skin irritation and can monitor the quality of water in your pool.

With data and information about the pool being communicated to platforms, you are able to manage the pool specification from anywhere via your smartphone. This information is displayed on easy-to-read charts and reports in which any incident or setting that should be checked are highlighted.

The IoT allows us to bring the smarts to your pool and enables a smart pool. The sensors are constantly monitoring 24/7, so you can look at your phone at any time and say, “Yeah, my pool is in good shape and this is what the temperature is.”

The new happening in the building sector is about smart, sustainable and efficient building environments. Traditional Building Management System (BMS), enabled create a connected environment between devices in building for better facility management and efficiency. However, in the modern era, the Internet of Things (IoT) is revolutionizing Building Management System (BMS) to enhance further control with a host of new sensors and actuators deployable within a building, to deliver greater levels of detail and control. Let’s discover the add-ins that IoT brings to BMS towards more intelligent buildings.

Deploying IoT-based solutions to building management systems 

Traditional BMS deficiency has been providing an unconnected between devices BMS and wired connection. IoT upgrade the proposition of BMS towards wireless connectivity with precise details as a more connected environment within a building to deliver new functions and integrated further possibilities in the system.

From occupancy, air quality, humidity, lighting, and many more sensors can all provide new levels of environmental control in BMS when IoT is added. With the possibilities of controlling more facility management and devices in a building enables greater control as well as more efficiency and value proposals for commercial buildings, houses, apartments and other building spaces.

How IoT makes things better for BMS 

• Faster recovery for investment with cost savings

when there is a higher level of efficiency within a building environment in terms of energy savings, lower labour costs, better device maintenance, long term usage and control of devices, the owner of the building has the possibility to recover the investment cost faster. Unnecessary maintenance cost can be avoided and the perfect utility of energy will reflect on your bills to reach an upper level of efficiency.

• User-friendly 

The technology involved in IoT is wireless as well as user-friendly with better system interaction. Users can easily adapt to the system platform without the need of expertisation. Therefore with the ability to better understand the system enables better control and more reliability. This also eliminates huge training cost and time savings to adapt to the system.

• Extended connection possibilities

IoT enables BMS seamless connect to different devices irrespective of manufacturing brand. Thus as and when as you bring in new devices in a building it can be connected with your BMS. The design friendly aspect is a game-changing technology that enlarges the possibilities for users.

• Remote access options

If you are away from your building and want to remotely control over certain devices, IoT-based BMS makes it possible for you. Connected with mobile devices, you can get full control of your devices remotely ensuring the full functioning of your building and safety as well.

• Energy savings translated cost savings

With the possibility of optimizing fan control, temperature control, sunlight control and much more possibilities, everything is controlled perfectly to create an energy-saving environment. As per the building requirement and environment, IoT based sensors adapt itself to create the perfect environment of the building by optimising energy usage.

At every level, from conceptual design, new materials and construction to maintenance, innovative digital devices, applications and methodologies are making their mark in the building industry. Technology is giving us a way to capture knowledge in this generation of “digital natives” which brings a new enthusiasm in the construction space. As projects around the world; become more challenging, new materials, new regulations, competition, higher efficiency and the drive for smart buildings, propel an ever-changing landscape that requires the construction industry to embrace technology to be successful.

 The construction industry is changing. Do not get left behind

 To improve the results and efficiency of complex projects in the construction industry, technology should be embraced by this sector. With more complex projects and higher requirements and expectations from clients, innovative tools should be adopted to be able to stay competitive in this industry. Today clients expect more transparency together with more involvement in the projects, with a tighter budget. All these specifications and requirements can be easily met with innovative tech like; automation, visualization, remote monitoring, robots and much more.

Construction technology guts

 Digital twins

The construction industry has the possibility to provide a virtual representation of projects with information and design with an innovative tool like Digital twin. A greater collaboration from engineers, data and other stakeholders to create an integrated way for every stakeholder to be informed of the progression of the project with everyone input at the correct timing.

Drones

Aerial visions are perfect for surveys and also remote monitoring. Moreover, the site can be supervised from remote and also undetected geological elements are discovered on site.

Augmented reality

Augmented reality (AR) is that it means a partially rendered environment, not a fully virtual one. Projects can be marketed well in advance with possibilities of viewing the design and any other aspect of the building well before the project starts. Detailing tasks, safety alerts and other support can be decided in advance as well to minimize accidents and reduce the risk of inefficiency.

 New materials

Development of new materials is a necessity for many industries, with increasing demand for low-carbon and sustainable operations. To be in term with sustainable goals and standards. A  liquid form of titanium dioxide and its natural reaction to ultraviolet light, the material can remove free radicals and other pollutants from surfaces, air and water. Therefore, reversing pollution, dramatically improving air quality and enabling the slabs to stay cleaner for longer.

Robots

For many of us, robotics is a thing of fiction and film, They are already in use today though, in a range of sizes and niches. Robots can reduce tremendous workload and take an intelligent decision at the right time without being bias.

Construction projects need accuracy, perfect measurement and quality designs to match the client requirements. 3D Scanning is a valuable tool for the construction industry to accomplish challenging projects and reducing reworks to keep the project on schedule and within budgets. With the possibility of detecting issues and faults before its work, 3D scanning helps to tackle wastage and saves money in your construction projects.

The benefits of 3d scanning for construction te sector

• Reduced Rework: On a typical construction project, rework can account for up to 15 per cent of the cost of construction, but frequent 3D scanning can highlight any potential issues before they turn into change orders, reducing the risk for the main contractor.
• Better Information Management During a Project: Scanning at set intervals makes it possible to document critical milestones, such as hand-offs between different trades, to compare work delivered with as-designed models and drawings for quality assurance.
• Lower Overall Risk: The precise information reduces the scope of error which diminishes the chances of miscalculations, which further prevents unprecedented accidents from occurring. This implies the prevention of collision because the contractors can even plan the building material movement in the construction area.
• Capture Existing Conditions in High Resolution: The technology, particularly, comes in handy during renovation projects wherein understanding what is to be done at the initial stage saves both time and money. Because of the technology, contractors can scan and preserve the image of a structure as it was during the initial phase.
• Fewer Physical Site Visits: Datasets are accurate, measurable, and shareable, eliminating the need for any guesswork when not on site.
• Speed, accuracy, and consistency: This technology provides a means of collecting millions of measurable data points, accurate to within 2mm, in just seconds.

Artificial Intelligence (AI) provides many potential openings and benefits for the construction sector. Among various benefits, AI brings in for construction the plan and design of a building for a 3D model-based process. Machine learning algorithms backed by AI enables to explore all the variations of a solution and generates design alternatives to match perfectly mechanical, electrical, and plumbing systems while simultaneously making sure that the entire routes do not clash with the building architecture.

About Generative Design

Generative design is about designing a building by taking into consideration spatial requirements, materials, manufacturing methods, plumbing structuring, engineering aspects, electrical systems and cost constraints as well. Under generative design is about exploring all possible permutations to create the perfect building structure.

To create a perfect building structure while taking into consideration various aspects from the design to the cost involved in the construction of many data and testing as well as other aspects. Juggling with data and sourcing data from different sources can be perfectly managed and done by Artificial Intelligence technology. To derive a perfect generative design , AI helps in to cater more inputs as well as bias decision at the end together by taking into consideration loads of external data from third parties as well to come up to the optimal generative design proposal for the best of the building structure for the long run and sustainability of the building. 

When Generative Design is backed with Artificial Intelligence

With machine learning and  AI-like algorithms, the optimal design shape can be reached based on the parameters and data of the user input.  AI enables smart product tools to loops in information for building design. A combination of engineering aspect and designers approach will deliver more innovation and efficient building structures. Ultimately, this shortens the design and prototyping process and speeds up the time it takes for innovative building structures to hit the construction industry.

Moreover, the generative design takes into consideration the goals set by the designer for the building structure as well as looking at the best possible costs involved in producing the design. Embedding initial prototypes with sensors take this one-step further – the feeding back of data essentially allows the building to co-design itself.

AI system has the potential to generate conceptual building structures based on cross-referencing as well with various existing models and using object recognition to generate more innovative, efficient and sustainable structures. The set goals of parameters are well taken into consideration to meets clients requirements as well as cost constraints. WIth AI an optimal design structure is proposed meeting all the requirements.

In Architecture, the visual experience is always regarded as a dominant perception and remains the main concern to designers. The tool of visualization probably came out first and becomes the primary mode of design thinking in practice. However, all individuals give form and definition to the world through multiple senses. Acoustics in architectural impacts many things in a building, from employee productivity in office settings, the performance quality in an auditorium, the market value of apartments, and much more impacts. Let,`s discover the other underlying of architecture.

Understanding Acoustics in Architectural Design

The process about how airborne impact on sound transmitted and controlled within a building depends on the structure design of the building. In a room, every material has an impact on the sound level be it the furniture to the floorcoverings. Elements such as the ceiling system and the wall partitions are the primary factors that designers use to control the sound within a building. Taking all the elements that impact on sound transmission within a building is Architectural acoustic.

Sound is transmitted through the air in a building in various ways, depending on the spaces. The primary elements such as the wall partitions and the ceiling transmit both the airborne sound and impact sound. Airborne sound is sound related to human voices and projected sounds such as phones ringing and impact sound relates to the flooring that footstep and falling objects.

There to have the perfect management of sound within a building Architectural acoustic.is important to be taken into consideration. Depending on the utility of the building being an office, a hall, an auditorium or apartments, the requirements of sound movement is different. To be able to have the required acoustic as per the building and customer requirement the structure of the ceiling, the flooring, as well as the partitioning, are the primary elements to be considered. Different surface projects and transmits different sounds; for instance, concave surfaces tend to concentrate sound in one area, while convex surfaces tend to disperse sound in various directions.

Why the consideration for Architectural Acoustic Design

Taking the science of sound into consideration while designing a building enable to minimise noise transmission from another and control sound within space itself. Can you imagine that building acoustic is important as it impacts productivity and communication in an office space, health and wellbeing in apartments? An employment office, for example, may require all-confidential private offices, while a bank may warrant varying levels of speech privacy. In-office settings, conference rooms and executive offices usually require high levels of acoustical control, but other areas may require only moderate measures.

Going further a concert can be more enjoyable and successful in a hall where the building acoustic has been adapted for concert halls, recording studios. In the education space, a lecture theatre where the quality of sound is intelligibility design is very important in promoting wellness and better transmission of lectures for students. For the health sector, a hospital or daycare centres design with the proper acoustic characteristics promotes wellness of patients and create a more comfortable and relaxing environment.

Proper coordination of acoustics in the design of building with uncomfortable aural sensations and other significant impacts on building occupancies. Considering is important for different sectors it is not only about auditoriums, theatres and religious spaces.

A smart sustainable building should ensure that every element of the building collaborate together to create the green-building initiative. To smarten up the possibilities and abilities of a smart building towards energy efficiency, Electrochromic Smart Glass (ESG) is the perfect fit for windows and glass coverage. Green building initiatives commit towards using clean technology for energy conservation and ESG complies smartly toward a greener environment.

About Electrochromic Smart Glass

ESG potential lies in changing its properties according to the environment. With high tech glass, the properties of the glass can change from clear, opaque, tinted or coloured, with possibilities of modulating heat and light transmission. From commercial, corporate and residential buildings, hospitals, hotels, labs and retail outlets creating partitions in their windows, walls and skylights, Electrochromic smart glasses can be used towards making smarter building for the betterment of the environment.

Electrochromic Smart Glass and Energy efficiency

Have ever imagined that windows are one of the most inefficient parts of a building as windows and glasses are responsible for heat loss and solar heat gain. In summer sunlight glare increases heat in a building and therefore increases the cooling load requirement. With ESG glasses, cooling loads of buildings can significantly reduce making savings on electricity. The ESG features create windows and skylights that switch from clear to dark as per the environment requirements. This reduces heat gain inside buildings as ESG prevents glare thus fading and heat gain is controlled without obstructing the view.

On another note heat loss in winter can also be controlled with ESG  which adapts itself to the salient features of the environment preventing heat loss and reducing dependency on electricity. Moreover, the lighting of the building can be comfortable and productive as per the requirement where external light can also be used. The dynamic feature of ESG enables to balance the systems requirements, such as the interior and/or exterior blinds and smaller HVAC systems, leading to increased conservation of materials and a reduced overall carbon footprint.

Internet of Things (IoT) can improve data collection together with deep analytics to support proactive decision making in real-time for water management. A Smart Water Management system increases the efficiency of water utilities towards a more resilient water supply system impacting positively on costs and sustainability. Digital meters and sensors are among the high tech solutions that enable efficient supervisory control and data acquisition for a smart water management system.

Smart water management

The activity of planning, developing, managing and distributing the optimum use of water resources is the role of the water management system. IoT can fit in the system by providing data analytics in real-time for optimum use of water resources. Industries water utilities differ according to their needs and activity, and therefore smart water management will impact on several key matters. IoT can fit it by reducing human capital towards the monitor and planning the water system as giving rise the possibility of remote monitoring of water networks using smart meters and other instruments.

Introducing IoT  in the Water Management System

Adopting IoT and automation for smart water management and … management and understanding how the introduction of IoT has enabled the … as well as enhanced existing water management systems and architectures.

Leak Detection: IoT enables the smooth running of the system with prompt detection of leaks and obstructions in water distribution Identifying the exact location of the leak is made possible with IoT technologies are capable of detecting and notifying users of the slightest deviation from what is considered normal. With minimal human intervention. IoT devices measure water consumption, flow and temperature data reducing water waste and help promote more efficient water consumption by monitoring consumption and loss rates and using this data to reveal further insight into how much water is being used or wasted and where.

Monitoring Water Quality: IoT devices helps to meet quality and safety requirements with precision and accuracy to achieve a standard quality of water resources. Sensors and devices collect required data from specified location point or operation site and communication the information in real-time with analytics from one device to another in real-time. Therefore actionable decision can be taken on the sport to minimise errors and repairs errors as well as efficient management of resources.

Real-Time Control: Wireless network backed by IoT technologies promote remote access monitoring and control towards a central management system. This enables engineers and technicians to do the needful from any location without the need to travel. Rather a central management system indicates the error and action to be taken and the required person can configure the necessary change in real-time.

Centralized Management: A centralise water management system gives a broad view of the water system network. Therefore information and data about which segment is using more water and those using less, therefore with this information wastage and consumption can be under control. All connected devices operating on the same network can be monitored centrally making waste and consumption monitoring much more convenient, and precise.

Predictive Maintenance: IoT technologies such as advanced automation, machine vision and big data analytics enable to monitor and determine in advance default and future capacity of the equipment. This could predict and schedule future maintenance. This enables to save cost towards the prevention of unnecessary repairs and replacements. By monitoring the use of pipes, pumps, storage containers or any other machinery or equipment, these devices and connected technologies can provide valuable insights into the wear and tear of equipment so as to allow water management operatives to schedule repairs and maintenance at a time that suits them and with minimal disruption.

The click to your mind when you hear about 5G is faster speeds, lower latency and many other benefits. Businesses, Gamers, Live streamers and other stakeholders hold on your gear as 5G technology will revolutionize the way things are being done.5G will unleash a wave of innovation, marking a major step forward for complete digital connectivity from the tip of the carrier network to the customer, without wires. The whole society and major sectors will receive a wave of up leash wow changes in the way things will be done in a 5G era.

What is 5G  all about

The next generation of mobile broadband is 5G which promises exponentially faster download and upload speed. Also, 5G means wireless connection with perfection at a higher speed known as the latency. 5G has the potential to deliver extraordinary for many industries and of course, our smartphone will boost up capabilities with a 5G network. Imagine downline information and movies within seconds and this can be possible with 5G. This revolution of rapidity will give rise to new services, revolutionary applications and endless business opportunities. 

The sectors that will breath better  sensation with the entry of 5G

• Healthcare– Critical care treatment will be able to spread along with various places. Connectivity Connects people from various Places on a single platform, a 5G enables speedy connection with the abilities of real-time treatments through instructions screen, where caregivers where mobility is not required. Finest surgeons will have the possibility to give instructions to caregivers in remote places.
• Transportation – Is a self-driven car currently a dream, this dream will turn into a reality with the entry of 5G. Low latency enables advanced driver-assistance systems and a lot more autonomy in the cars.
• Manufacturing- Factory automation and other processes that require quick action and real-time action. 5G fits in perfectly to make things happen in real-time. Real-time production inspection and assembly line maintenance will totally under control in a 5G environment.
• Energy– Industry that creates infrastructure connection like the energy sector will now be connected in a 5G environment. Remote assistance will now be quicker with remote transmission tower monitoring and improved security.
• Smart cities – The aspect of smart cities include transportation, smart buildings, and smart metering will be smarter with 5G as real-time information about movements and other data with be available with the low latency feature of 5G.