Using BIM to Transform Healthcare Industry

BIM in health infrastructure examines the application and implementation of BIM technology in the planning, design and construction of health infrastructure.

The inclusion of BIM within an internationally accepted framework of this highly illustrated reference book applications case study organizations, the main challenges for the implementation of BIM in healthcare to navigate how to motivate and train staff to overcome resistance to change and the development of the business case.
Besides being different, general contractors find healthcare buildings the fiercest ones because of technology upgrades, their unpredictability, the large area and inconvenience in maintaining obstructed activities on site. Most EPC companies would rather build something else as rehabilitation or even build an existing healthcare facility renovation or from scratch.

Today, hardly any AEC industry professional is aloof from the acronym “Building Information Modeling”. BIM aids for almost every professional, be it a general contractor for the project bids, the architects for 3D visualization, structural engineers for steel and design detailing and MEP engineers analysing building element clash detections in the design phase. Moving on to the construction and maintenance, BIM supports site engineers for logistics and construction schedules and facility managers for the post-construction and life cycle management facility.

BIM Helps Hospitals Reduce Infections

According to recent survey from the Centre for Disease Control and Prevention, these infections, also known as nosocomial infections, can cause 99,000 US deaths per year, or creates devastating effects on the families of patients, deaths and treatment of more than 290K surgical site infections each year cost the US health care system billions of dollars, and yet they are preventable with the use of BIM.

Converting Visualisation into Reality – Augmented Reality

The elements of the real-world environment enhanced by computer-generated visual effects can be used to communicate the details of the design and conceptualize exactly as intended. Architects often visualize a building, but their designs are not well communicated to the contractor. It could also be that the design displayed is not practical when it comes to construction. With BIM at their disposal, contractors, architects and civil engineers can communicate the appeal, aesthetics, feasibility of construction and all other details of the project to ensure that the design is translated into reality exactly as displayed.

Saving Construction Time

Besides pre-construction planning and clash detection, BIM can be a tool for efficient quality control. The use of computers in the workplace, rather than rolls of drawings, allows quick and easy access to recent documents, and the 3D model. Tablets and smartphones can also be used to access the data. Increased prefabrication in designing health can also benefit from BIM. Design and layout can be made in BIM and in some cases the 3D model can be used with CNC control machines to go directly from digital to final production of elements.
Resolving Complexities with VDC Efficacies
The most complex project more deeply rooted and far-reaching are the benefits of using BIM. Greater collaboration between design teams and construction team enables even the most complex processes to easily design and easily communicate using the efficacies of BIM VDC (virtual design and construction).

Reducing Risks

Clash Detection and risk identification is one of the most important features of BIM, made more efficient because every detail of a construction project is seen as coexisting in a unique ecosystem in building information model. VDC efficiencies thus contribute to the clash detection and risk mitigation, which has a cascading effect on various aspects of construction process, including making it efficient and highly streamlined.

What’s next for BIM in healthcare?

According to Autodesk, the answer is simple: advanced technology.

“BIM has radically transformed the way we design hospital spaces, and as technology continues to evolve, this will only be more sophisticated.

“Computers and machines will add to the design process support. Instead of manually drawing a good design, we took algorithms with which designers are fed automatically with the optimal building, structural load, and thermal performance, as examples.


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