We are living in a world that is always on the move and constantly evolving. People need to be able to work from anywhere and this can mean having to jump from office to office, or even travel for meetings. This means that the best way to keep up with this demand is by building smart buildings that can be used by different people. Let’s explore what these buildings might look like and how they will shape our future!
Smart buildings can be defined as a building that is able to adapt and change based on the needs of the user. This means that anyone could use a smart building for different numbers of hours, or even work from home without disrupting the flow of activity within the office. Smart buildings are also more sustainable because they do not needlessly consume energy when there is less movement.
One of the biggest examples of a smart building comes from Amazon, who regularly move their offices around to make the best use of existing space and try and keep costs down. By creating Amazon Spheres they have been able to create four huge greenhouses that will allow employees to work amongst plants you would normally only see in the jungle! On top of that the building is extremely sustainable and they will even be able to harvest some of the plants for food.
As you can see, smart buildings are definitely on their way and it’s likely they will only become more popular as companies try and embrace new technologies within their industry. It is not hard to imagine a future where everyone works from home rather than clogging up the roads on their commute.
The story of the smart building: from 0 to 1
Imagine a world where everything is connected. A world where buildings can think for themselves. A world where you can control your environment with the click of a button. This world is not science fiction – it’s the future of smart buildings.
A smart building is a building that is equipped with sensors and software that allow it to collect and analyze data about its occupants, environment, and operations. This data can then be used to optimize the performance of the building, making it more efficient and comfortable for its occupants.
The first smart building was built in 1998 by IBM. Since then, the market for smart buildings has exploded, with spending on smart building technology forecast to reach $90 billion by 2023.
There are three types of smart technology in a building: lighting, HVAC (heating ventilation and air conditioning), and security systems. The largest market for smart lighting is in the United States, with no spending on HVAC or security systems forecast in North America over the next four years.
In a smart lighting system, sensors collect data on occupancy and daylighting. This data is then analyzed to determine which areas need more or less light. In a conventional building, the lights are always on, even when no one is in the room. In a smart building that uses this technology, lights only turn on when they are needed.
A smart HVAC system works similarly to a traditional HVAC system, with the exception that it is connected to sensors and software that allow it to monitor and optimize energy usage. A traditional HVAC system uses approximately 20% of total building energy; this number drops to 7-10% in a smart building.
Finally, a smart security system uses sensors and software to monitor the entrances and exits of the building. It can then determine whether there are people in or around the building at any given time, allowing it to lock down when no one is present. This allows for energy savings during unoccupied hours.
A smart building is more than just a building that is connected to the internet. It’s equipped with sensors and software that allow it to collect data on its occupants, environment, and operations. All of this data is analyzed so the building can operate at peak performance.
The first step to maximizing the potential of your smart building is to determine how you currently use your space. Once you’ve done this, it will be easier to pinpoint ways in which your building can be optimized.
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How to choose the building management system?
When it comes time to choose a building management system, there are a lot of factors to consider. One of the most important is the size of the building. The system needs to be able to handle the number of occupants and the level of activity. It’s also important to consider how much automation you want. Do you want all the systems in the building to be managed by the computer, or are you comfortable with some things being manual?
Another important consideration is the budget. Building management systems can be expensive, so it’s important to make sure you get what you need without spending too much. It’s also important to make sure that any additional features you want, like security or energy management are included in the price.
The time it will take to install the system is another factor to consider. In some cases, it can be as simple as plugging a few things into an electrical socket, but you don’t want to have to spend days running wires and setting up complicated systems. The location of the building management system is also important. Ideally, a computer in a building should be accessible to the public, but not where everyone can see it. For example, you don’t want someone stealing your password by watching you type it in.
The location of any server or other computer systems is another important consideration when choosing a building management system. It’s also a good idea to choose an interface that makes sense to the people using it. If you have a lot of young employees who are used to touch screens, they may not be comfortable with a system that requires them to press buttons and turn knobs.
Finally, choose something that is easy to use and maintain; otherwise it will end up collecting dust instead of making your life easier. While a building management system can significantly reduce your workload, it will only do so if you take the time to learn how to use it and keep it maintained.
In short, make sure your new system is made for the size of your building, include all of the features you want at a price you can afford, install it as quickly as possible, choose an interface that makes sense to your employees, and keep it up to date so it doesn’t become obsolete.
Security in building management system
There are many different ways you can implement security into a building management system. When designing the system, you will need to consider what you want to be able to control. Some systems are designed so that they can manage everything from security cameras, lighting, HVAC, bolts on doors, and electronic locks. If your system only includes parts of this list, it’s probably best to customize one of the existing systems rather than trying to build your own.
If you want to be able to control security cameras, this is usually done directly through the building management system. Some systems are designed so that each camera can be controlled independently. If you have a large number of cameras, it may be best to purchase one of the pre-built systems designed for this purpose.
If you want to manage locks or bolts, you will probably need to purchase a different system. A system designed to manage HVAC is usually not capable of managing locks, and vice versa. You can also buy systems specifically designed for this purpose, but they are typically expensive and only include the capabilities that you need.
For example, while some systems can operate electric strikes directly, others will require you to purchase a separate device. In most cases, using a single system for everything isn’t the best idea. This lowers your productivity and reduces your options in the future if you need additional features or capabilities.
If your business is large enough, it’s probably a good idea to have two building management systems: one that manages functional parts of the building and another that manages security. This ensures that you can carry on business as usual if anything goes wrong with your security system.
Building management systems have the potential to change how people interact with their buildings by increasing efficiency without reducing function. Before choosing a system, make sure it’s compatible with your building and meets all of your requirements. If you follow these guidelines, chances are your business will save time and money for years to come.
How to pick the right Building Automation System
When looking for a new building automation system, there are a few things you should consider. The first is the size of the building. You need to make sure that the system you choose is able to handle the size of your building. The second is the type of building. You need to make sure that the system you choose is compatible with the type of building you have. The third is the budget. You need to make sure that you can afford the system you choose. The fourth is the features you want. Make sure the system you choose has all the features you want. The fifth is the scalability. You need to make sure that you can upgrade or expand your system as needed. The last thing you need to consider is reliability. Make sure that the automation systems are reliable, secure and offers value for money.
A building automation system consists of many devices working together in an integrated environment which allows all the equipment to communicate with each other. A building automation system consists of the following key components:
– HVAC controls that can control lighting, air conditioning and heating
– Lighting controls which includes occupancy detection which turns off lights when rooms are unoccupied at night or during parts of the day when no one is working in the room. Lighting also includes sensors which turn off lights when rooms are unoccupied and motion detectors to turn on the lights when people enter the room. These sensors also monitor temperature and humidity, security systems and controls for window shading
– Fire alarm system to communicate fire alarms between devices such as fire panels, smoke detectors and strobes to inform those working in the building about a fire.
– Security system consisting of a door access control that controls the entrances and exists of the people in the building, CCTV video surveillance systems with alarms
– Audio Visual system which consists of media distribution screens to disseminate information within or outside of a company, conference room or meeting room facilities such as microphones and speakers. This also includes the Internet and Toilets.
– IT Infrastructure that allows all of the devices to communicate with each other such as routers, switches and servers. This includes mobile device management which allows employees to connect their smartphones and tablets to the network.
An important factor in buying a building automation system is the size of your building. The size of the building is important because it determines what system you need. If your building is small, you can use a single-zone heating and air conditioning automation system. This is not possible with larger buildings as they are far too complex to control using one automation system.
Another thing to consider is the type of building you have. There are two types of buildings: commercial and industrial. The difference is that commercial buildings have a majority of non-industrial, electronic equipment such as computers and information systems which contain sensitive information. Industrial buildings do not have as much non-industrial, electronic equipment as commercial buildings.
Industrial automation systems are usually the same as those for commercial use except that they have a higher resistance to electricity spikes and hostile environments. Industrial buildings usually have a higher humidity level as well as dust that can damage electronic equipment which is why they often need a more robust system.
A commercial building automation system has about 5 subsystems: HVAC, lighting , fire alarm, security and audio-visual. A smaller installation may have some or all of the automation systems. A medium sized installation may have two subsystems while a large installation can have more than four.
Industrial buildings need an industrial building automation system which is more complex than commercial ones because they are more prone to dust and water damage. There are three types of industrial automation systems: simple, standard and advanced. The difference between the three is that standard and advanced systems have fire alarm, access control, CCTV video surveillance cameras and connectivity to mobile devices installed in them. Simple industrial automation systems do not have these features.
The best company to buy a building automation system from is one that has been providing business with building automation for at least five years so that they can prove their capabilities, trustworthiness and satisfaction. They should be able to provide references from customer who bought equipment from them so you will know what kind of services they give. If possible, ask for a free quotation then contact the company’s previous clients to see if they are satisfied with their services.
The best automation system would be one that will minimize their energy consumption while maximizing their comfort levels.
The best way to integrate BMS and ERP in a smart building
There are many benefits of integrating BMS and ERP in a smart building. The most important benefit is that it can help to save energy and reduce costs. BMS and ERP can work together to optimize the use of energy in a building. They can also help to improve the operations of a building, including security, maintenance, and asset management.
Another important benefit of integrating BMS and ERP is that it can help to improve communication between different systems in a building. This can help to improve the efficiency of a building and reduce the need for manual input. Finally, integrating BMS and ERP can help to improve the overall efficiency of a smart building.
The article describes about the Benefits of BMS and ERP Integration for a smart building. Finally, with the help of this, it is easy to analyze the technical requirements which are essential during BMS and ERP integration in a smart building.
Integration with BMS
Real-time information about energy consumption in a building, which can help to optimize the use of energy.
Automation of repetitive tasks, which makes it easier for asset managers to manage their buildings.
Emergency alerts can be transmitted when there is danger or an event is detected in a building.
Architectural requirements for a building can be defined using the 3D model. This helps to standardize the design of a building and ensures that all systems are installed according to plans.
Integration with ERP
Detailed reports about energy consumption which help to optimize the use of energy in a building.
Reports about assets that are being used in a building which helps to reduce asset maintenance costs.
Detailed reports about the use of energy in different areas of a building, which helps to find where more energy is being consumed. This can help to optimize energy usage.
Standardized workflows which help to improve the efficiency of daily operations, including security and maintenance.
The benefits of integrating BMS and ERP in a smart building have been discussed above. This helps to improve the efficiency of a smart building, optimize the use of energy, and reduce costs. In this way, integrating BMS and ERP can help to improve operations for a smart building.
How to integrate your BMS with your ecommerce
There are a few ways that you can integrate your BMS with your ecommerce. One way is to use a shopping cart plugin. This will allow customers to add items from your store to their cart and checkout directly on your site. You can also use an API to connect your store with your BMS. This will allow you to automatically update stock levels, prices, and product information. Finally, you can use a custom integration to connect your store and BMS. This will give you the most flexibility and control over the integration.
How to choose the right IoT platform for your smart building
When it comes to choosing the right IoT platform for your smart building, there are a few key factors you need to keep in mind. Here are a few tips to help you choose the right platform:
1. Know your needs
Before you can choose a platform, you need to know what your needs are. What features do you need in order to make your smart building work?
2. Consider your budget
IoT platforms can be expensive, so it’s important to consider your budget before making a decision. There are a variety of platforms to choose from, so you’re sure to find one that fits your budget.
3. Choose a platform that’s easy to use
You’ll want a platform that’s easy to use. If the platform you choose is complicated, it may be hard for users to take full advantage of its features.
4. Look for a platform that integrates with your existing technology
Take a look at what kind of technology you have in place before choosing a platform. A good IoT platform should integrate seamlessly with your current systems.
5. Look for a platform that has back-end support
Every smart building needs competent support, so make sure to choose a platform with excellent back-end support. This will ensure you have the help you need when implementing your system.
6. Choose a platform that’s compatible with all of your devices
A good IoT platform should have device compatibility across all major brands. This ensures that you’ll be able to integrate your system with a variety of different devices.
7. Check out available documentation
Before choosing an IoT platform, it’s smart to check its documentation. Documentation is the perfect way to see how well-developed a platform is, so choose one with documentation that’s easy to navigate.
8. Look for a platform with a strong community
A strong community is a great indicator of a company’s dedication to its customers, so check out the platforms where you’ve seen the most active communities. You’ll feel more confident knowing that help is just a message away when you need it most.
9. Find out what support features are offered
What kind of support does the platform offer? Does it have helpful tutorials and FAQs, or do you need to sign up for an expensive professional service to get help with your IoT project? Make sure that whatever platform you go with provides the level of customer service you expect from this type of investment.
10. Don’t limit yourself with platform restrictions
It’s important not to let the limits of your platform restrict you from using it to its full potential. Look for a platform that has excellent device compatibility and offers integration across all major brands. This will allow you to find support for whatever devices work best for your smart building project.
Top 5 things you need to consider when retrofitting your building with IoT technology
When you’re retrofitting your building with IoT technology, there are a few things you need to keep in mind:
1. Security: make sure that your system is secure, and that only authorized personnel can access it.
2. Efficiency: make sure the system is efficient and doesn’t consume too much energy.
3. Compatibility: make sure the system is compatible with your existing infrastructure.
4. Scalability: make sure the system can handle future growth.
5. Cost: make sure the cost of the system is justified by the benefits it provides.
Why energy management is critical for a successful IoT smart building strategy
Many commercial and institutional buildings are now deploying energy management systems (EMS) as part of an overall IoT smart building strategy. However, there is no one-size-fits-all answer to the question of which EMS products or services should be used in a particular facility. The key to a successful deployment lies in taking a holistic, end-to-end view of the energy management process, and then selecting the most appropriate products and services to meet the specific needs of that facility.
Energy management is critical for a successful IoT smart building strategy for several reasons. First, inefficient energy use can lead to significant cost savings for building owners and operators. Second, optimizing energy usage can help reduce greenhouse emissions and improve the sustainability of the building itself.
However, the impact of deploying an EMS in a smart building extends well beyond these basic benefits. EMS are just one part of an overall IoT strategy that can have a profound impact on the bottom line.
It is not just cybersecurity that is driving this growth. EMS is also evolving to help drive down the cost of energy for building owners and operators, whether through increased savings or increased monetization opportunities.
An increasing number of commercial buildings are now offering energy efficiency services to their tenants. These include benchmarking reports designed to show how much energy is used in the building, and approaches to benchmarking against other buildings (peer-to-peer comparisons). EMS can play a role here by providing granular data on energy usage in different parts of the building. This information can be presented in ways that are useful for tenants, while also helping owners monetize their IoT smart building strategy.
In a commercial building, for example, an EMS can provide detailed analysis of energy use on a weekly or even monthly basis. In some cases, this data can be used as part of the benchmarking process to show how much energy is being used by each tenant. In other cases, it might be very specific data for billing purposes.
In a retail store, EMS offers the opportunity for retailers to manage their energy use more efficiently. In most cases, the retailer will be able to set up its own rules with regard to heating and cooling. For example, electrical outlets may be switched off when they are not in use.
3 case studies of businesses who successfully implemented an IoT smart building solution
Case Study 1:
A leading technology and services company wanted to increase the efficiency of its workforce and cut costs. It deployed an IoT-based smart building solution that monitors and manages energy use, lighting, and HVAC systems in its buildings. As a result, it was able to reduce energy consumption by 20%, saving the company $1 million annually.
Case Study 2:
A global bank wanted to improve the environmental sustainability of its headquarters. It deployed an IoT-based smart building solution that monitors and manages energy use, lighting, and HVAC systems in its buildings. As a result, it was able to reduce energy consumption by 25%, saving the company $2 million annually.
Case Study 3:
An entertainment company wanted to improve workflow and enhance the customer experience. It deployed an IoT-based smart building solution that monitors and manages energy use, lighting, and HVAC systems in its buildings. As a result, it was able to reduce lighting power by 40%, saving the company $150 million annually.
4 elements of an IoT building solution
There are mainly 4 main elements of an IoT building solution:
-The data acquisition layer
-The communication layer
-The integration layer
-The application layer
The data acquisition layer refers to the way in which systems are connected to the building through sensors and devices, delivering information back to a central point.
Communication layer involves an integration platform or cloud service that facilitates communication among different hardware components, e.g., sensors, actuators, controllers etcetera.
The integration layer is related to how different systems and equipment in the building work together.
The application layer defines the ability of a system to work with different devices, whether it is wearable technology or sensors within buildings.
What is the difference between an IoT smart building solution and a cloud based building management system?
IoT-based smart building solutions are deployed through a distributed network of intelligent sensors that interact with other devices and systems to manage, optimize, and control various aspects of the building operation. The data collected by these sensors is processed and analyzed in near real-time to provide feedback for better decision making. This helps improve operational efficiency, minimize energy wastage, and enhance the occupant experience.
Cloud-based building management systems, on the other hand, rely on centralized servers to manage all the data from the building sensors. While this setup offers more comprehensive insights into all aspects of the building operation, it can be expensive to maintain and may not be suitable for certain types of buildings.
What are some strategies for reducing costs with an IoT platform?
When it comes to reducing the costs associated with an IoT platform, there are a few key strategies that businesses can leverage. One method is to optimize the use of data. Only send data that is necessary for the task at hand, and avoid sending data that is not needed. This will help to reduce the amount of bandwidth needed, and save on storage costs.
Another way to reduce costs is to make sure that the devices being used are compatible with one another. Choose devices that use the same operating system, or at least share common protocols. This will make it easier to manage and maintain them, and can also lead to cost savings on hardware and software licenses.
Finally, consider using public clouds instead of private clouds. Public clouds provide more efficient solutions with a lower long-term cost.
In this article, we’ve discussed a few ways that you can improve the intelligence of your buildings.
These include improving environmental controls and designing for better user experience with IoT devices. If all these ideas sound interesting to you but overwhelming at the same time, don’t worry- our team is here to help!