Atlas collaboration with Scott Brownrigg
Atlas are delighted to announce our new Digital Twin Unit collaboration with Scott Brownrigg.
A Digital Twin connects the physical and digital worlds. Interfacing with a number of digital plugins, a Digital Twin has the ability to simulate scenarios and make accurate predictions, helping organizations pinpoint critical weak spots in their assets to mitigate risk. In the long term, a Twin can improve future building design programmes and ongoing maintenance.
This joint venture combines the design and planning skills of Scott Brownrigg with our digital technology expertise. We have been working on Hong Kong Airport Terminal. The Overall Digital strategy for the Airport Authority Hong Kong is to digitize the Airport facility, creating a Digital Twin of the entire 12.5 sq km site. Over 70,000 Employees work within the Airport facilities.
Our Smart work included:
Proof of Concept Retrospective As-Built modelling request
Atlas created LOD500 Revit models from the laser scan information provided
Test COBie data was also created and entered into the models
A digital twin of the Gate 219 area was created
The Digital Twin Unit looks forward to supporting clients in delivering on their Digital Twin strategies thus enabling the benefits of improved efficiency and effectiveness in asset management to be realised.
Related news :
The design demands of healthcare real estate are evolving. Whether building a new facility from scratch or overhauling a dilapidated community facility, the shift from medical-centred to patient-centred design has begun.
As the population ages and technology advances, standing still when it comes to designing efficient, flexible and welcoming healthcare facilities simply isn’t an option.
Add in the need to meet sustainability requirements, provide climate resilience and incorporate the importance of wellbeing, and the challenge becomes even greater.
Here we explore how architects and commissioning healthcare professionals can work in partnership with digital design specialists to deliver a different kind of environment for both patients and staff. One that’s centred on people to promote quicker healing, improved morale and ultimate flexibility.
Collaborate for design success
Regardless of location, hospitals, clinics and drop-in centres should be welcoming to patients, visitors and healthcare workers.
The aim of modern design is to create a calm environment that supports healing and reduces both stress and medical dependence. An approach that makes patients more comfortable and allows staff to do their job more effectively.
Achieving this ideal standard relies on bringing together experienced healthcare professionals and experienced design professionals, including architects and digital delivery experts.
Working collaboratively helps to fill any skills gaps, e.g. a commissioning healthcare team may not have anyone in-house to manage specific tech such as BIM. Step forward specialists who can effortlessly use BIM to drive and coordinate projects.
Design professionals can also share their knowledge of how a beautiful building must first respond to the needs of those who use it. As we know, beauty without function has no purpose.
Understanding design trends and demands
All parties involved in a project should get to grips with what design features need to be incorporated to create the ideal healthcare facilities. Understanding what benefits they bring will help facilitate stakeholder buy-in and deliver a successful outcome.
Increasingly, successful healthcare design centres on the following principles: flexibility, people-centricity, tech as standard, resilience and sustainability.
Incorporating these requires buy-in from all parties. A job made easier when you can build a project in the digital world first.
Using transformative tools
Increasingly, healthcare organisations are turning to design to deliver environments that can support wellbeing for all and boost operational efficiency.
To achieve this transformation, architects, engineers, healthcare professionals and designers need to work flexibly and collaboratively.
Step forward tech such as virtual reality (VR). This planning and visualisation tool is priceless when it comes to engaging clients and stakeholders. VR can be used to create a 3D walk-through model of any healthcare facility, bringing cutting-edge designs to life.
With VR headset technology, the project team can virtually walk through a building floor by floor, leading to more informed decisions. VR can showcase where handrails can be most conveniently positioned on walls, where planting can soften a clinical area and where windows should ideally be placed.
And embracing BIM means project teams will always have an up to date 3D model of plans, making design testing and tweaking straightforward for all.
Whatever your healthcare design project, partnering with a digital design specialist lets you give commissioning teams a unique insight into the overall vision. They’ll focus on accuracy and detail, helping all parties to collaborate and share information.
Work together and you can deliver a welcoming, modern, tech-enabled healthcare facility on-time, on budget and on brief.
Integrate the experts at Atlas into your design team and introduce global best practice to your project.
The spread of COVID-19 across the globe is reaching us all in one way or another. Measures to reduce the spread of the virus are affecting business operations and people’s wellbeing in many ways.
Our main operations centre remains unaffected.
Our operations centre in Vietnam has, to date, not suffered any direct effects of the COVID-19 outbreak and it has not impeded production.
The COVID-19 situation in Vietnam has been less severe in impact than elsewhere as a result of the prompt and thorough implementation of control measures by the authorities. We are strictly following the guidelines, particularly with regard to personal contact and general hygiene.
While this situation persists, we will eliminate all but the most essential personal contact in order to preserve our ability to continue supporting our clients all over the world.
Data security and accessibility is key to our – and your – business operations. Much of our work is cloud-based, giving us operational flexibility and the capability to work from home if needed.
Our priority is to ensure that our work continues.
This situation will pass and the actions we take now will influence the world that emerges.
We are looking after our people, bringing extra redundancy into our systems, and responding quickly as our clients’ needs change.
As always, keep communicating and we will weather this storm together.
The construction industry is always looking for new ways to make the sector safer, easier and more efficient. From utilizing modern AI to ensuring fast construction site broadband.
Over recent decades, technology has evolved at a staggering rate, however, due to the strict requirements needed from construction to ensure safety, it is only recently that these technologies have been able to meet the specifications needed to be used.
In this article, we look at the top ten construction technology trends to look for in 2020.
1. Big Data
Data is the currency of the modern world and with 2.5 quintillion bytes of data generated every day, it can be a struggle to manually interpret all of this and make proper use of it.
Big data removes the almost impossible task of this, the human brain can only process so much, not to mention the natural errors that could be included in this process.
Using big data to discover trends within data, within a matter of minutes, is shaping the face of the construction sector.
This data is collated from all manner of resources, from internet search history, smartphones, social media and even photographs.
Previous data can be used to pick out trends and patterns to help avoid pitfalls and aid in a successful project.
It can even determine when a project should start by analyzing weather patterns and traffic.
2. Artificial intelligence & Machine Learning
AI is intelligence that mimics the behaviour of a human, ML is this but also learns from previous experience without having to be programmed and can avoid any previous errors.
Both AI and ML are becoming essential to the world of construction.
Machinery can be programmed to carry out manual tasks that are relative, such as bricklaying and welding, which means workers are free to carry out other tasks.
It can even make a site safer, AI can look out for hazards and alert workers of dangers. It can even use photo recognition to ensure staff and visitors are wearing correct PPE.
3. The Internet of Things
Most households use IoT, but construction sites are increasingly seeing this present as well. The IoT is when a central platform controls smart devices, such as phones, watches and speakers.
This is being rolled out across the sector in fantastic new ways. Sensors are being installed in machinery, for example, cement mixers can alert workers when the contents are low and even engines can automatically switch off when not in use.
Safety is increasing, workers wearing smart technology can be notified using geo-location when they have entered a danger zone.
Footfall can even be tracked, reducing arduous paperwork and saving time.
4. Robotics & Drones
No longer just for hobbyists, these amazing inventions are so versatile, most sectors are taking advantage.
Drones can be used to fly in materials, in a fraction of the delivery time of vehicles. Not only does this speed up the process, but also reduce a site’s carbon footprint.
Cameras on drones can be used for a quick, comprehensive overview of a site, meaning managers can quickly identify hazards.
Demolition robots are becoming the norm, although flowers than using human workers, they are safer and less expensive.
5. 5G and Wi-Fi 6
No business can properly run without adequate communication, most of which is now done via the internet.
While broadband is the best means of ensuring a fast, reliable connection, this isn’t always feasible on every site, especially when the project is short-term.
5G and wi-fi 6 are considerably faster than their predecessors and allow all team members to easily communicate with each other and clients while making sure that documentation and data are easily accessible throughout the project.
6. BIM Technology
Building information modelling technology uses intelligence to aid designers during the initial process.
BIM technology uses AI to flag clashes during the design process, including plumbing and electrics.
It can even offer solutions to these clashes, meaning all those involved do not need expertise in every element in order to design a safe and functioning building.
7. Virtual Reality and Augmented Reality
VR creates a fully immersive experience into a virtual world while AR places digital elements into a real-life view.
Virtual tours can be provided, even before the construction of a building starts, meaning clients can have a full picture of what to expect upon completion.
Risk assessments can be completed remotely, allowing site managers to get a good view of every part of the design. This also removes the wait time for these team members to be present to carry out these assessments.
8. 3D Printing
3D printing is quickly becoming indispensable within the sector. Materials can be printed on-site, removing waiting times and reducing delivery vehicles on our roads contributing to carbon emissions.
As these parts are relevantly cheap to produce, it provides the means to experiment with new designs and allow easy trial and error.
There are times when bespoke pieces are required, which can be costly to have made as a one-off by manufacturers. Using 3D printing means almost anything can be created.
9. Mobile and Cloud Technologies
Most of us use the cloud within our personal life, but it is quickly becoming one of the most important technologies within construction.
Being able to share files instantly reduces time wasted between departments, while still ensuring these files are stored safely and securely.
These can be updated in real-time, allowing better collaboration and communication.
10. Blockchain Technologies
The most commonly known blockchain technology is Bitcoin. Digital currency can be stored safely as payment and ensures all parties are satisfied throughout the project.
Payment is safely stored with a third party with an agreed contract in place. Once the contract has been satisfied, this payment is released.
This removes the worry from clients not knowing if they will get what was expected and means contractors will always be paid upon completion.
This year is proving an exciting year for construction technology trends, with these in place, construction sites are ensuring a more efficient, safer and more eco-friendly service.
The warning bells have been sounded by the environmentalists, we have no choice but to make our buildings energy efficient and environment-friendly; the only way forward seems to be making our habitats more environment-friendly.
The biggest advantage of using BIM is that it takes into account your day-to-day experience to help you change your habits, thus enabling you to make necessary adjustments for improving the efficiency of your buildings.
Firms offering BIM Modeling services can play a vital role in helping architects come up with energy efficient buildings with low carbon footprint.
More efficient facilities management:
BIM envelops the entire lifespan of a structure unlike other traditional construction systems that are responsible for a structure only till the commissioning stage.
This means that BIM Modeling services vendors stand with the building owners/ operators throughout and help them manage their facilities more efficiently.
They enable the users to take the right decisions at the right time based on right information. Our buildings consume more than fifty percent of the power generated around the world, their energy consumption affects the environment adversely. It’s important to know if a building is designed well enough to optimize energy efficiency.
If we are able to gauge how well a building is performing after it’s commissioned and how well is it operating over time, we can ensure it doesn’t add to grave problem of air, water and sound pollution.
How can BIM help you make your buildings energy efficient:
BIM can help you answer the above mentioned questions and find effective solutions to them. Experience shows that various objects and processes being used in a building influence its performance.
The general and specific habits of the inhabitants/ users, especially in the high-rise buildings, also have a great impact on their performance.
There is a need to constantly monitor various aspects like energy and water usage, contamination, security, material storage and management, and so on to make buildings more efficient and environment friendly.
BIM is a great tool to gauge the impact of all these aspects and improve their overall performance.
Benefits of energy performance analysis by BIM:
Assessing the performance of proposed structure
Firms providing BIM Modeling services employs a process that uses coordinated, consistent information to help all the stakeholders- architects, engineers, contractors and building owners – to see in advance what the design would look like after completion.
This also helps you judge its expected overall performance. Performance-built BIM solutions allow you for capturing building geometry and characteristics in order to conduct energy performance analysis in case of existing structures.
Improving energy efficiency of the structure
BIM provides the building owners with energy efficiency suggestions and an overall model for conceptual building energy usage. This helps improve efficiency in new designs as well as in renovation and retrofit projects.
Empowering the industry professionals
You must have a comprehensive overview of a building project in order to reduce water and energy consumption, and make the built environment more user friendly.
BIM performs ‘what-if’ scenarios using simple energy models to determine the optimum energy and water requirements of the building. It empowers the industry professionals to produce functionally superior, efficient buildings.
Importance of doing energy analysis:
Studies have shown that energy analysis using BIM models can help you save nearly twenty-five percent on energy use in new buildings.
The potential for energy savings is even greater for retrofit or renovation projects since these existing buildings never had a system of energy analysis.
You can use these whole building energy analyses to accurately calculate maximum possible reductions in energy consumption of a proposed/ existing structure.
You will also be able to suggest changes in the behavioral patterns of the tenants in order to improve the energy efficiency of a building and make it more environment friendly.