Five BIM Predictions in 2015

Building information modeling has become an integral part of the way many construction firms do business. More and more contractors are seeing the benefits and value of BIM and using it to take a more proactive approach to construction.

Here are some of the exciting things happening in BIM you should expect to see throughout 2015 and beyond…

1. BIM is Here to Stay

Today, virtually every large construction firm has a BIM department in-house and even most medium-sized firms either have BIM departments or are in the process of getting one. This trend will continue this year.

New software has made it easier for field teams to extract information from the field and drop it into 3D models to accurately reflect real-world conditions. The result is more accurate models and a more efficient process with less rework overall.

“Once all of the big construction firms are using BIM, all of the mid-tier firms will start using it. The big architectural firms already use it so the smaller firms who want to work with them will also have to have it,” said Tate Jones, owner of LandAir Surveying Company, one of Atlanta’s top five surveying companies. “That migration will continue – similar to the migration from hand drawings to CAD. In five years, there will be very few firms who don’t use BIM.”

For most, the first step in BIM adoption is model coordination. As a next step, firms will extend BIM to include laser scanning before and during construction, as well as total station layout during construction.

Read the full article here in Leica Geosystem’s BIM Learning Center…

Laser Technology Makes Traditional Field Measuring of As-Builts Obsolete

Ask architects what they dislike most about their jobs and many will agree that taking field measurements ranks pretty high. 

 

Measuring as-built conditions takes architects out of the office and away from the work they enjoy most and what makes them money. And many times, traditional measuring methods are inaccurate and time consuming – and that’s when the environment is simple!

 

When there are difficult conditions, taking measurements can be next to impossible. And not to mention, inevitably, there is always something missed or the field notes don’t quite match up to the rough sketches done onsite. 

 

Today, there is a better answer to field measuring existing conditions in the form of laser technology.

 

LandAir Surveying utilizes 3D laser scanning and laser measuring technologies to provide a modern solution to the task of field measuring as-built conditions. Depending on the level of complexity, amount of detail needed, deliverables required and timeframe, we can dictate which laser technology is right for each individual project. 

 

The power of laser scanning

Laser scanning is the surveying technology of choice when it comes to difficult environments.  Historic buildings, exterior elevations, heavy MEP conditions and the need for very precise measurement data capture are all examples of when laser scanning technology should be used.

 

Laser scanning generates millions of data points to create a 3D image referred to as a “point cloud.” The point cloud can be measured and viewed in any direction, which virtually puts you back at the work site.

 

The point cloud is then utilized to generate AutoCAD drawings, building information models (BIM), or used as a design tool itself.

 

The speed of laser measuring

Our advanced laser measuring technology allows for exact measurements and real time data capture of critical data and building geometry. The use of wireless laser range finders and a remote BIM workstation reduces data collection time, increases accuracy and eliminates rework.

 

Models and AutoCAD files can be generated onsite and in real time, as well as quality control and field verification, which greatly reduces the amount of work required back in the office.

 

Here are just a few examples of how laser scanning and measuring have provided more accurate information while saving valuable time and resources in the field:

 

Project Case Study: Historic Hotel Renovation

A historic hotel built in the 1930’s with no existing documents and in a bad state of disrepair was scheduled to be renovated into a modern boutique hotel. 

 

LandAir utilized both 3D laser scanning and laser measuring technology to provide a point cloud, TruView, fly-through video and AutoCAD drawings. Laser scans were performed on the exterior of the hotel to provide elevation drawings. 

 

The eight-story hotel’s exterior was brick and adorned with many architectural details. The laser scan was able to capture all of the exterior data measurements and provide additional helpful details that were viewed in the point cloud including sidewalks, tree clearances and parking lot details. 

 

The laser scan was continued into the lobby and through the first floor of the hotel, helping tie together the laser scan information and laser measuring software. Due to the nature of the construction of the hotel, each one of the over 140 rooms had to be individually measured and floor plan documents created. 

 

With LandAir’s workflow design and remote BIM workstation, QA/QC was able to be done on the rooms in the field and the irregularly shaped rooms were verified on site.

 

Project Case Study: Big Box Retail Conversion

A grocery store and two adjacent in-line stores had gone dark and were going to be renovated to accommodate a new tenant. The option on the building was expiring and there were no existing documents to help determine if the space would work for the future tenant. 

 

LandAir utilized laser measuring technology to provide AutoCAD documents and a 3D model to the designer and tenant in less than two days. The proposed design and tenant requirements were compared to existing conditions and the project was able to move forward in the required timeframe.

 

Project Case Study: Pedestrian Bridge Addition

A pedestrian bridge was proposed to be built over an extremely busy street in a large Metropolitan downtown connecting a hotel and parking deck. No drawings were available and the proposed bridge was four stories above the street, making traditional measuring very difficult and dangerous. 

 

LandAir conducted a 3D laser scan of the exterior of the hotel and the existing parking deck.  The street scape conditions, power lines, traffic signals and building tie-in points were all measured accurately and safely from the laser scanner. 

 

AutoCAD drawings, a TruView and a video fly-through were provided for the project team. The point cloud fly-through provided a 3D visualization from any vantage point of the proposed bridge.

 

This helped the hotel determine how the sight views of rooms would be affected and allowed for inspectors, DOT officials and the downtown development authority to understand the impact of the proposed bridge. 

 

Project Case Study: Mall and Food Court Renovation

A three-story open atrium food court was to be redesigned and new tenants added to the mix. 

 

The existing documents were not a true representation of existing conditions as, over the years, there had been changes and alterations to the space. Additionally, the height and design of the atrium had many features that were difficult to measure.

 

LandAir laser scanned the atrium and surrounding spaces to provide a 3D model and clash detection for the proposed design changes. Laser measuring was also utilized to produce exact as-built documents for the surrounding spaces so that the mall owner could provide drawings for future tenants to build out their stores.

 

Each project has its own challenges and needs. LandAir uses the latest laser technologies to improve these projects and put an end to one of the most painstaking tasks in construction: field measuring.

Are you planning to attend ICSC RECon 2013 in Las Vegas next month? If so, e-mail me at mdorsett@lasurveying.com. We would love to meet you there!

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Mitch Dorsett has over 15 years in the building and construction industry and serves as director of business development for LandAir Surveying. Mitch is rapidly becoming an expert in 3D data capture and virtual design and construction, having attended and represented LandAir’s laser scanning capabilities at SPAR, RTC and Autodesk University in 2012. Contact him at mdorsett@lasurveying.com or visit www.landairsurveying.com

A Hidden Place Where Laser Scanning Provides High Value

If you think laser scanning provides a substantial amount of value for aerial and terrestrial projects, just wait until you hear about the benefits of taking it here. Click here to check out Tate’s featured blog post on GeoDataPoint.com.

BIM: Breakfast of Champions

Whenever my travel and work schedules allow, I try to attend the BIM Breakfasts at Georgia Tech.

Held once a month on the Georgia Tech campus, the breakfast brings together some of the best and brightest minds in the Atlanta area.

The February event featured speaker James Barrett, the national director of integrated building solutions for Turner Construction. Jim specializes in virtual design and construction/Building Information Modeling (BIM) technologies, lean processes, and integrated project delivery.

Put in layman’s terms, he is pushing BIM and virtual design tools to the limit. Under his leadership, Turner Construction has become one of the top BIM users in the world.

Jim does not push BIM just because it’s BIM. His idea is that his designers and contractors need to use the best tools available to help their company succeed and their clients get the best results. The BIM process and virtual design flows naturally from that core idea.

Turner also does not push one specific type of software, but instead teaches as many as 10 or 12 different packages that their best and brightest have become familiar with. As with any tool, Jim explains, no one tool will do everything.

Another point he made was this: when you roll out a new technology, don’t try to convince the world that it’s the best way to go. Instead, show it to the early adopters and let them prove that it works and that it’s the most efficient option. It will naturally make its way to other potential users.

For me, this point really hit home.

In 2005, we began using terrestrial lidar and 3D scanning technology. I have traveled to many firms in the southeast and tried to sell the benefits to the whole AEC community.

Initially, I had minimum success. It was early in the process and few of the established firms were interested at that time. However, I did find a few and slowly built a successful 3D laser scanning division that still thrives today.

These firms were the early adopters. Ironically, it was not always the young guys that were the most open to new ideas. Sometimes it was an older person who could see like I did where this technology was headed.

Now this technology is almost mainstream and is an integral part of the BIM process.

In his presentation, Jim pointed out that in New York City they have “view protection” and laser scans are used to document the view of the construction site.

In the BIM toolbox, when you identify a complicated project, laser scanning is a tool that you should certainly consider. The benefits and uses of laser scanning data are numerous and the risk of not using one and incurring additional costs down the road can be significant.

Another really good idea that Jim presented was that every year, they take a small percentage of their new hires and immerse them into what they call BIM University.

These people then become experts that the rest of the company can learn from. This gives every group in the company and geographic area internal experts that they can lean on to best implement the technologies of BIM. What a great idea!

They even started an intra-company communication site on their intranet so that users anywhere in the company can post a question. In minutes, experts throughout the company can provide insights and answers and have a forum to share their knowledge.

I believe this practice will continue to grow as companies see the value of tapping into the knowledge base they already have with their employees. What a great tool for a leader to build in their own company.

Jim’s presentation also touched on the other tools that help to automate the construction and design process like the ability to view augmented reality on iPads with the use of QR codes. At his firm, they work with public inspectors to load iPads with plans and drawings to make their process quicker and more efficient.

He also addressed the effect that 3D printing will have on the construction industry. Though it will not likely take the place of massive building material needs, it will fill a unique need when a limited number of items are needed in a quantity that can be met with industrial 3D printers, he said.

There will always be people who question whether we need BIM and virtual design and construction. I cannot completely understand why anyone in the AEC industry would still be asking this question, but I do understand that in some subsets, there is much more low-hanging fruit than in others and for these, early adoption is a no brainer.

The push for BIM and virtual design use and innovation is coming out of the construction industry as the large GC firms have pushed it further and further into their processes.

If you are in the Atlanta area and want to see and meet some of the best minds in BIM, I do recommend the Georgia Tech BIM Breakfast forum. Every time I go, I learn something.

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Tate Jones has over 40 years of experience in land and aerial surveying and was one of the country’s earliest adopters of 3D laser scanning technology. A nationally recognized expert in the field of 3D data capture, he has worked with hundreds of clients in the engineering, architectural and construction industries. Contact him at tjones@lasurveying.com or visit www.landairsurveying.com.

Advances in 3D data capture are changing faster than ever. How can we help you in 2013?

First, let me say Happy New Year to all of our clients who have supported us for the past 25 years. We appreciate you and are honored that you choose LandAir Surveying to team with you on many interesting projects across America.

Over the past seven years of traveling down the road of 3D data capture and using multiple platforms for LiDAR data collection, we have seen this technology expand into almost every field of design, construction and manufacturing.

It has been fascinating to watch the world change from 2D plans to 3D data sets and models. And in the process, modeling is becoming cheaper, faster and easier.

Having attended international conferences and through speaking to groups across the country, we have seen and studied with interest what is going on in the U.S., Europe, Japan, India and Asia. The whole world of design and construction is making this shift!

Daily, we talk with firms both domestically and internationally about the diverse issues of 3D design and construction to equip us with the knowledge we need to be your trusted resource for new approaches to surveying projects.

For example, we have been producing surveys for the transportation industry since 1998. I can remember when we had to actually put our surveyors out in traffic (with approved safety measures, of course). Now, with our scanners, we can stay off the shoulder of the road and capture all the required data without putting anyone in harm’s way. This is standard practice now and, as an owner of a surveying company, very important to me personally.

Approaches to projects are changing not only in transportation, but across all industries.

Last year, we produced a 400-acre topographic map with 1-inch contours in very, very dense foliage. Just two years ago, we would have had to field survey this project. But by using a combination of aerial LiDAR and strategic surveying techniques, we were able to produce the job at 1/3 the cost of a traditional field run survey.

In 2013, we plan to expand our technology, using drones to capture data on specific projects. This is already being done across the country and the technology is moving from military grade and unaffordable to civilian grade and absolutely affordable.

So, how can we help you this year? For one, we can show you how surveying tools are changing and getting better. We can discuss with you when to use airborne LiDAR to document and produce data over a city, county or state.

We can show you when the conditions are right to use mobile LiDAR and put together a team to make your project successful.

We know when to use helicopter platforms for LiDAR over fixed wing aircraft, and we can show you how to model the inside of an existing building faster and more cost effectively than ever before.

We look forward to being a valuable resource for your firm and hope to continue working with you in 2013 and beyond. The design world is changing very fast and we are committed to changing right along with it.

Have a great and profitable 2013!

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Tate Jones has over 40 years of experience in land and aerial surveying and was one of the country’s earliest adopters of 3D laser scanning technology. A nationally recognized expert in the field of 3D data capture, he has worked with hundreds of clients in the engineering, architectural and construction industries. Contact him at tjones@lasurveying.com or visit www.landairsurveying.com.

 

Autodesk University 2012: watching an industry grow up!

Attending and exhibiting at shows like Hexagon, Spar, and Autodesk University is always fascinating because you get to interact with clients all over the country and see what’s new in the industry.

This was our first time exhibiting at Autodesk University, but having been to three conferences in Las Vegas in one year, I was quite familiar with the surroundings. At this year’s show – which was attended by over 8,000 people from 102 countries – what I saw was an industry that has grown up and is beginning to make a real impact on design and construction.

I remember in 1986 when a new drafting program named AutoCad came out and everybody was debating if it would become the standard…it did. And it brought with it – along with the digital age and computers – the plotters and all that went with the introduction of this new paradigm.

Most of us waited to see how it would be received in the industry, but then – as now – it proved to be a very valuable tool.

And just a few years ago, we were all still discussing the advances in AutoCAD and Civil 3D.  Though we knew these programs would remain relevant, it was evident from all of the different software that interacted inside of Revit and enhanced the user experience that the world of 3D design was here to stay. (As a friend of mine said not long ago, “If you are not designing and interacting in 3D and models, you are quickly going to be obsolete.”)

Autodesk University 2012 showed us how design is being done today and where it is going in the future. One of the more interesting observations was that besides the architects, engineers and designers, there were contracting companies, retail companies and owners all talking about the new Autodesk programs that were being used in the workplace.

There was lots of talk in these groups about building “Revit families” specific to their business types, as well as discussions around how to mix the contractors (who have the knowledge about how a building is built in the actual world) with the BIM modelers so that the models are also constructible.

This will be a big challenge. Contractors and superintendents who know how to pour a slab and build 20-story buildings have knowledge and insight that is absolutely critical to building a proper BIM model.

As any techno geek, I am always very interested in the new products on the exhibition floor and the showcase included hundreds of third-party vendors developing exciting products that work alongside Autodesk.

There were lots of new software and hardware lines in the 3D laser scanning industry, as well as new software offerings for BIM models, Revit technologies and GIS products. But for me, the most intriguing products were related to 3D printing applications.

These fabrication and modeling solutions enable products to be created directly from their computer models.

Almost anything you could imagine – from cars to motors to guitars – was printed and on display. Though 3D printing has been a popular topic in recent years, it was there, it was real, and it will definitely change how items are built in America and around the world.

At the conference in Vegas, there were actual printers producing objects out of wood, metal and polymers. The only difference was whether the printer was loaded with plywood or metal.

BIM is an acronym for Build Information Models, meaning to build computer models that have built-in intelligence. What I observed was BIM in the context above – building models and objects with just the information in a computer.

My, how we have grown.

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Tate Jones has over 40 years of experience in land and aerial surveying and was one of the country’s earliest adopters of 3D laser scanning technology. A nationally recognized expert in the field of 3D data capture, he has worked with hundreds of clients in the engineering, architectural and construction industries. Contact him at tjones@lasurveying.com or visit www.landairsurveying.com.

Where we are now…and where we’re going.

As 2012 winds down and we get ready to head to Las Vegas for the Autodesk University conference, I look back at the strides that have been made in the 3D world and all of the associated hardware and software in our industry.

Not only is there new technology being used and accepted, but the demand for more BIM products, users, and technologists has grown faster than ever. I have also watched with great interest the wave of corporate acceptance that was not there even three years ago.

There is still much ground to be broken, but wow – what a year!

New Software

Take software, for example. As I travel around America and talk to user groups and clients, the one thing I am always asked is when will it be easier to model point clouds into usable entities?

There is much research going on to solve this challenge. Though I have no commercial interest in this firm, I believe one of the ones to watch in this space is ClearEdge 3D. Their EdgeWise Plant software is pushing the barriers away for modeling point clouds.

Personally, I believe that within the next three years, this major barrier we face now will be a minor issue and point cloud use will continue to grow and expand.

The other great leap in technology is that most of the major software packages have updated their products to accept point clouds as a layer. This means that most of our clients in the architectural and MEP worlds can now import our point clouds into their design software and greatly enhance their designs.

Just three or four years ago, using point cloud data required modeling and this limited the market to mechanical and structural engineers and various contractors with specialty software.

Today, because all Revit users can import point cloud data, the need to model everything in a scan project has been greatly decreased. This is a big deal! Now, instead of having to pay for an expensive model, end users get all of the benefits of point cloud precision without the associated costs of modeling.

Not to be overlooked, there are still issues that will need to be ironed out in inserting point clouds into design software, but they will be overcome with time.

For example, if you are working in Inventor to model plant process data, it is best if the project is modeled from start to finish in Inventor. Similarly, if it is to be modeled in Revit, it is best that it be modeled from start to finish in Revit. There are no readily available universal translators to move from a model that was created in Cyclone to a model in Revit while keeping the full integrity of the original model.

Though the data itself is globally transferrable, the structure of the models, entities, families and libraries requires more work to be done in this area.

New Hardware

Last year, I predicted that the hardware in our industry was set and that most of the changes would come in the form of software. On this point, I was wrong.

Several changes have occurred that continue to advance the hardware. For example, The Faro Focus 3D has broken the price barrier. Prior to its release, most scanners started around $80,000 and went up to $200,000. The Focus was released at about $50,000 and has caused price adjustments throughout the industry.

I believe this trend will continue and prices will continue to go down. This is both a good and bad thing for the industry. As prices go down, more people with marginal training and experience will begin to use scanners and bad point clouds will become more of a problem.

There is a saying in our industry that “one bad point cloud kills a lot of clients.” Indeed, this is true. I have talked to clients who tried laser scanning nine years ago, had a bad experience, and will not use it again to this day. The problem is not that scanners are getting more affordable, but that there are still no national standards in the industry.

The upside is that with a lower cost competitor, vendors must consider what value their laser scanners bring that others do not.

Cool New Technology

Two things I am really interested in and know will change the playing field moving forward are   aerial drones and augmented reality.

These two technologies are growing fast and have many great uses. A traditional helicopter used to map utilities and large areas generally costs about $25,000 per day. A one-meter drone quadripod, on the other hand, costs about $2,000 per day.

Though there are unique tasks that the smaller one-meter drones can do that the helicopter is currently doing, there are other tasks that the smaller drones can perform that traditional helicopters cannot do. For example, smaller drones can more effectively and safely map underground pipes, mines and tunnels.

Currently, to send two scanner technicians into a tunnel requires about six surface and sub-surface support staff. An unmanned drone with avoidance technology would be a great solution.

Augmented reality and the ability to project 3D images easily and to large groups is available and is changing the whole world of education. A small but growing company, ViziTech USA, is doing very creative and trendsetting work in this area.

This is where the science of 3D technology is repackaged so that the average person can use and understand it. This is a powerful tool and will lead to great changes in many industries and educational processes. For more on augmented reality, read our recent blog post here.

The design and construction of future projects will still require the same basic processes that are required today. But the use of precision data before, during and after construction – and the visual way the data can be viewed – will greatly reduce errors and downtime events.

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Tate Jones has over 40 years of experience in land and aerial surveying and was one of the country’s earliest adopters of 3D laser scanning technology. A nationally recognized expert in the field of 3D data capture, he has worked with hundreds of clients in the engineering, architectural and construction industries. Contact him at tjones@lasurveying.com or visit www.landairsurveying.com.

The Next 3D Scanning Frontier: Transportation BIM and Augmented Reality

As I stand back and look at where 3D laser scanning has led us as a company, I am both pleased and confident that the world of 3D virtual design and engineering is healthy and growing fast.

I recently met some truly amazing people from all over America and Europe who are doing some very forward thinking things with 3D virtual reality in both transportation BIM systems and augmented reality. Here’s a snapshot of what I saw:

Transportation BIM Systems

I was in Washington, DC, a few weeks ago speaking at a large corporate meeting and had the opportunity to see a fascinating presentation on the San Francisco Bay Bridge construction.

The construction cost will come in around $7 billion (yes, billion). The metrics are staggering, but there are four major construction firms working on the project.

Cal Trans has scanner crews scanning the progress on a weekly basis. Because of this, there was room in the budget and the available technology to do real time clash detection of the existing and proposed construction.

Because the bridge was designed in 3D (really in 5D), engineers were able to save big bucks on relatively simple components. For example, the 3D scan allowed them to get real time views from the proposed security cameras underneath the bridge. As a result, the actual number of cameras was cut in half, saving several million dollars.

Crews also used 4D (time) clash detection to view when a new component of the bridge was being constructed while an existing component was still in place. The 4D BIM model, when clashed against the existing model at that moment in the construction sequence, showed that there were interferences in temporary construction items.

Though the clashes would not have interfered with the final design, they did interfere with the interim design and would have slowed construction. This knowledge allowed the designers and contractors to make modifications to the sequences before there was an actual problem.

Just a few years ago, this capability would have been unheard of!

One of the more astonishing things I saw was a 5D construction sequence video that showed the bridge’s proposed construction slide bar and dollars spent on overtime as the bridge was coming out of the ground or water. This enabled you to compare construction costs to the bridge’s progress. At this same time, the 3D graphic was color-coded to show the four separate contractors and their workflows.

This all sounds complicated – and it was – but through the 3D engineering process, you could view the time estimates, add the construction dollars, and come to a very natural conclusion as to what was actually taking place. You could confirm that one contractor had finished his new section before another section was tied into it.

A 3D video showing a major component – like how the cabling system would be threaded through the bridge to provide the final structural support – was also very intriguing to watch.

Augmented Reality

This may be one of the biggest and best changes that I foresee coming to the construction industry.

Augmented Reality (AR) is a live view of a real-world environment whose elements are augmented by computer generated sound, video, graphics or GPS data. If you consider that most new construction will first be built by engineers and designers in 3D in computers, then you may see where we are going with this.

With the base designed in 3D, you can then place a “target” in a construction zone. A target for augmented reality can really be anything as long as a tablet or cell phone can recognized it as graphic signal to launch 3D BIM programs.

These targets are used to orient the tablet to the exact same design point as where the construction is occurring on the ground. When targets are scanned with a tablet, the original design for that exact spot of construction is displayed. As the tablet is moved around this area, you can view the construction in 3D at a specific location.

Here’s an excellent example: Assume that you have a three-sided, multi-story concrete opening for a proposed staircase. By scanning the target placed in that area, construction workers can see on their iPad or Android tablet exactly what the finished product will look like. Not just a flat drawing on 600 sheets of blue lines, but the 3D model of how it will actually fit into the opening.

And remember: the world is international and these projects are under construction all over the world. By doing this, we just transcended the language barrier. We just solved the problem of expert tradesmen who are great at their craft but may not read details on blueprints that well. We just got a crew of 2-5 construction workers from a point of unknown to a point where everyone has a perfect mental picture of what is going to be constructed. That’s a huge step!

One of the oldest sayings for any worthwhile project is, “Begin with the end in mind.” What a great way of accomplishing this.

As a testimony to how well this is working, many construction companies have been rolling out flat screen computers onsite to show superintendents actual BIM models by sequence. All throughout the day, they are used over and over by the workers who are building bridges, buildings, and infrastructure around the world.

These rolling 3D models are helping to get projects constructed right the first time. They are preventing construction problems and saving big money. Very soon, I believe that all of this will be done with either special glasses or projection screens.

Currently, the only obstacle slowing the process is having a way to orient a 3D BIM model real time inside of a building. Outside, it can be done with GPS. But inside, it is more challenging.

However, augmented reality will very quickly make paper plans obsolete. I have seen it in too many places and have seen the benefits. It is coming and will soon be a standard. All of the major construction companies are embracing this technology.

Another real use of augmented reality will be in the operations of the finished building. The technology already exists to allow a maintenance worker to go up to a motor or valve (or any piece of equipment that has a target) and scan it with his tablet or phone.

This opens up a computer database so that he can see the last maintenance schedule and the internal parts of the machine. If he services the machine, his data is automatically sent to the company database and is available for anyone to review. Or, if a repair is needed, he can launch a video of how to take apart the machine and replace any part he needs.

This brings the power of the “owner’s manual” and the entire knowledge stored in the computers running the facility in real time 3D to the exact point it is needed. Imagine the implications if you own a complex manufacturing facility.

In just the past seven years, I have seen strides that were only imagined 10 years ago. But today, it’s all happening – and there are very creative people all over the country working on even more and more innovations. It’s an exciting industry to be working in!

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Tate Jones has over 40 years of experience in land and aerial surveying and was one of the country’s earliest adopters of 3D laser scanning technology. A nationally recognized expert in the field of 3D data capture, he has worked with hundreds of clients in the engineering, architectural and construction industries. Contact him at tjones@lasurveying.com,  tjones@3DLaserSurveys.com or visit www.3DLaserSurveys.com.

The Future of Laser Scanning: 5 predictions for design and construction

In a few weeks, I am speaking at a conference about the future of laser scanning in the design and construction world.

The audience will be members of a top international construction firm that is very progressive in its use of BIM and 3D laser scanning, so it got me thinking about some of the research I have done and observations I’ve made at various 3D laser conferences over the last eight years.

Based on the incredible innovations in our field in the last decade, I have five predictions as to how high definition scanning will change design and construction in the near future:

#1: Rapid and creative increase in the use of the technology. 

When GPS hit the market in 1992, we were early adopters of the technology and found great savings for our workflows as a result. For one, what used to take us two to three weeks of field surveying could now be done in just hours.

While there is still pushback in some sectors of the design industry related to laser scanning, contractors are largely on board. No other single group gets a better return on investment for the dollars spent on laser scanning.

Every major building contractor I know is using the technology in some way. The reason is simple. If something is designed from old plans and doesn’t fit, it is the contractors who will have to pay to make it fit. They live in the world of construction schedules and why is not nearly as important and when and how much!

The use of this technology will only increase in the future. Currently, 3D laser scanning technology is being used to show floor flatness with 3D contours well before the new floor is built. As a result, if there are any critical departures from the plans, they can be fixed for a fraction of the cost of what it would be once the walls are already in place.

BIM models are being compared to the laser scan in real-time so minor changes can be made before they turn into a major – and expensive – problem.

As we go forward, I see a time that scanners will be attached to each floor of a building as it goes up and will robotically scan at appropriate times, allowing the laser point cloud to be compared and clashed every night or even hourly to the BIM model to detect changes between the design and construction.

This technology has already reduced the cost of construction and will go upstream to reduce the cost of project insurance because it lowers risk.

#2: Video vs. Laser Scanning?

Ironically, one of the innovations of 3D laser scanning will be using the laser less and the iPhone more.

For many years, “close” range photography has been able to create accurate as built information. Used by experts who understand the survey control necessary and the techniques required, the results could be better than laser data.

Now there are firms writing software that can produce point clouds using video or multiple pictures of the same object (which is what video really is). With no control, it does not have the same accuracy as lasers, but the cost is significantly less.

There is a debate in the 3D world whether this will replace laser scanning or compliment it. I suspect the latter.

One study I read said that creating point clouds from photography currently was about 98% as accurate as a laser scan on smaller areas. That said, if you measured a room that was 100-feet long with a point cloud based on photography, it could theoretically give you a resulting measurement of only 98-feet long.

Consider this: How many times is 2% good enough? The truth is, many times it is. One of the oldest problems in scanning is how to get above the ceiling tiles to document the utilities above.

Getting a scanner up there is slow and expensive. Removing the tiles is slow, dirty and expensive. But if you could remove a few tiles and snap a few pictures, you could get an accurate inventory of what was there and where it was going that would be extremely helpful.

Much research is being done in this field, but I think in a very few years – depending on the specifications – we will be using cameras as often as lasers.

#3: Intelligent point clouds

This is where much of the research in software is going.

Right now, there are some programs that can model pipe correctly between 70% and 90% of the time. They can also recognize walls and show some, but not all, of the flat surfaces.

While this is a huge step forward, if only 80% are right then you have to check 100% to see which are wrong. You would not want to order a couple of hundred feet of the wrong size pipe and have in onsite only to find that it was the wrong diameter.

In the design world, it has always been our opinion that no data is much better than bad data.  Ironically, the current software does have excellent object libraries, so you can isolate the point cloud of a structural I-beam and ask the software to find the right part and it does a great job. However, though it is a more reliable process, it is a manual process.

I believe this problem will be completely solved in less than two years and the use of point clouds will increase exponentially.

#4: Why create a model at all?

At the risk of creating total confusion, there is a growing group of expert users that ask this very question, why model at all? Their thinking is that when you model, you change the shape of the object scanned and the cleaned point cloud is a better representation of an object.

That being said, with the ability to bring the point cloud into design programs, more professions – especially the high precision users – are designing inside the point cloud and not from a model.

I saw a fascinating presentation by a satellite designer. When another payload was added to the satellite, he would not work off the plans, but instead scan the existing satellite in the next room and use that point cloud for the additional design. Of course, we don’t all have the luxury of having a working copy of the design next door.

The important point here is that for critical design, the point cloud is closer to reality than the model. The other realization is that nothing is ever built exactly as it was designed.

#5: Advanced data capture platforms

This will be one of the biggest changes and most fun to watch.

Currently, we use helicopters, fixed-wing aircraft, automobiles, trucks, off road vehicles, boats, and tripod-based systems to collect data. Though these work well for most uses, many of the projects that need scanning are in dangerous conditions. (Tunnels, large underground pipes, underground mines, failed construction areas, high voltage transformer stations and nuclear power plants.)

All of these areas have one thing in common: they are unsafe.

Enter drones and walking robots. When the nuclear power plant in Fukushima, Japan, failed and melted down, the level of radiation was so high that the workers could spend very little time inside the radiation zone.

The team brought in a small drone that delivered high quality close range aerial photography and was equipped with avoidance technology so it would not fly into a fixed object. The digital information was extremely valuable in assessing the damage and did so safely with little human risk.

I have already seen experimental drones equipped with small scanners that are programmed to scan flat surfaces and recognize open areas like doors. They will go through to continue the scanning in areas that, because of gas or other dangers, would be very difficult for humans to work in. In studying the decaying infrastructure of America for rehabilitation, can you imagine being able to put a drone down the sewer systems of New York City or Atlanta and get high resolution scan data without having to put people in such an environment?

Track mounted robots are being used in the same way. These will definitely be used more and more in the future and will change the way we work.

The future of scanning is immense and the different ways we scan – the data capture vehicles and the software – will continue to evolve and become more customized to the specific industry problems presented. Point cloud data, whether collected with lasers or iPhones, is still the best data that exists for capturing and studying existing conditions.

The future will be exciting to watch and the prize goes to the person or company that can best see beneath dense foliage, behind walls, or under the ground.

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Tate Jones has over 40 years of experience in land and aerial surveying and was one of the country’s earliest adopters of 3D laser scanning technology. A nationally recognized expert in the field of 3D data capture, he has worked with hundreds of clients in the engineering, architectural and construction industries. Contact him at tjones@lasurveying.com,  tjones@3DLaserSurveys.com or visit www.3DLaserSurveys.com.

Young innovators push 3D design and high speed data capture to new heights

When we were asked to bring our booth and support the 2nd Annual Revit Technology Conference in Stone Mountain, Georgia, last week, I didn’t know what to expect. But I’m glad we went because we saw the future – and it’s very, very bright.

For BIM managers and designers, this conference was a look through the hourglass of the future at the world of design and one thing is for certain: gone are the days when firms could avoid BIM, 3D Cad modeling and laser scanning and still hope to be competitive.

What I saw were bright young innovators already pushing the technology of 3D design and high speed data capture to the limits.

It was very refreshing to attend a conference where presenters and attendees agreed that 3D laser scanning was the best tool to use in many design situations and were openly discussing how they currently used the technology in innovative ways.

The largest 3D scanning show I attend every year is SPAR. I had the same feeling at the Revit Technology Conference last week that I had at the third SPAR show back in 2005 when laser scanning was still a new and relatively untested technology.

The quality of what was being presented at the Revit conference – and how and who was presenting – was way up on the charts.

Around the showroom floor, there were the larger suppliers of the Revit technology, who were very knowledgeable about new improvements to the products, alongside many boutique firms that were selling all types of software to make the design process in Revit easier and more organized.

There were also other groups selling “cloud” technology that provided a new, more efficient vision of the cloud. While most of us already have data on our iPhones, it will be a short time before we will all have our data in the cloud and projects will be able to be worked on by anyone, anywhere with just a password and a computer.

On large mega-projects like new airports and major industrial facilities, multiple design teams in multiple cities will be able to work on the same cloud-based data at the same time. It will change the way we do things forever. Yes, there will still be security issues and priority issues, but ultimately that’s where we are headed.

Why have one computer process for one million seconds to solve a data set if you can have a million computers process for one second? It’s not quite that simple, but that’s the goal.

The speakers were great, too.

My favorite was Dick Morley. His opening presentation was in the form of a fireside chat with Brad Holtz serving as the interpreter. (I say interpreter because when the audience looked confused and a topic seemed to go over our heads, Brad would bring Dick back down to earth.)

Dick Morley invented the programmable logic controller, which pretty much controls all the electronic machinery in the world. To put it in prospective, that one device produces more revenue than all of Hollywood’s productions combined.

He also invented antilock braking technology, which revolutionized cars and greatly reduced accidents on the highway. (As a side note, he said that while the number of accidents decreased for many years, they slowly started going back up as drivers in America learned to drive closer using the antilock brakes. As the margin of error decreased, accidents increased.)

Dick also invented the cash register overlay that has pictures of food on it rather than numbers. This greatly reduced errors and increased production in the fast food industry.

Dick, who was trained in physics at MIT, had a clear message: “Look at where things are going and what needs to be solved and find the technology to solve it. Holding on to the way it has always been is just a reason to justify where you are – not a plan to move forward.”

I think this is true across the industry. The true leaders and innovators are not the ones who are really good at getting a piece of paper from the left side of their desks to the right, he said. The innovators ask, why paper?

Other interesting speakers shared new and innovative ways the power of 3D is being used across the spectrum. Kelly Cone with the Beck Group gave a very thorough presentation of using modeling in a major construction project and how the model was embraced and used by many of the subcontractors on the project.

They even built a “construction” roll-able computer workstation so the subs could walk over in real time, look at their section of the project in 3D, and understand the intent of the designer.

He also talked about how having access to quick laser scanning information helps designers and contractors come up with workarounds in tight spots.

The conference had attendees from most of the continents in the world and it was evident that critical mass has been reached and that the tipping point into 3D design technology is complete.

The transition away from 2D drawings and flat surveys is history and 3D models and clash detection and design testing prior to construction is now the new standard.

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Tate Jones has over 40 years of experience in land and aerial surveying and was one of the country’s earliest adopters of 3D laser scanning technology. A nationally recognized expert in the field of 3D data capture, he has worked with hundreds of clients in the engineering, architectural and construction industries. Contact him at tjones@lasurveying.com,  tjones@3DLaserSurveys.com or visit www.3DLaserSurveys.com.