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Hacked By BALA SNIPER

Hacked By BALA SNIPER

Our 25 Hours in Haiti

The alarm was set for 4:00 AM. It was going to be a long day.

The mission was to travel to Haiti to survey space for a new community kitchen. The existing kitchen feeds some 1,400 children each day their only meal, which most days is no more than beans and rice. They are the lucky ones. Many children in the area receive only “mud cookies,” which is exactly what you are imagining.

Several Atlanta-area churches joined together to build a new, bigger kitchen in Port au Prince that can feed as many as 10,000 people. They enlisted the help of LandAir Surveying and Paul Gresham, an architect who works with Chick-fil-a and a member of one of the involved churches, to create a base map for the master construction plan.

I made the trip to Haiti with Allen Nobles, president of Nobles Consulting Group in Tallahassee, Florida. We have been friends for many years and have worked together on projects all over the country – but nothing quite like this.

The plan was to scan the entire site consisting of an existing one-story school, an old building housing the existing kitchen, the future kitchen site, and a church and the campus walls around it. The existing kitchen has no running water and the sewer system is merely a pipe that goes through the wall to a creek out back. By Haitian standards, this is state of the art.

To further complicate matters, this is a particularly scary part of Port au Prince with a high crime rate. People are poor. Tourists have been kidnapped. Dysentery, yellow fever, malaria and cholera plague the area and the roads are full of potholes.

As we made our way through back roads crowded with cars and children, we finally arrived at the front gate of the school where the new kitchen will be built. Our van pulled into the tight driveway and the driver blew his horn, a sign for the guards to open the gate.

Once inside, we joined Paul, Pastor Vincent – the school’s headmaster – and a local architect assigned to help with the project.

Preparing to scan

Paul provided a general idea of what he needed for the design team. The school’s campus consists of a single story school building approximately 300-feet long divided into 10 classrooms. On one side of the campus is a large church that also serves as a meeting room.

In the center of the campus is a large building that is to be demolished. It houses a kitchen that is approximately 20-feet by 25-feet. The cooking equipment consists of some large bowls and pans used for both cooking and washing the dishes. The stove is simply six propane burners. This small kitchen serves 1,400 meals a day to the students and local children.

The goal was to produce a map of the campus and get enough information on the existing school so that a second floor could be added. Paul and his design team would prepare a master plan for future development, but their top priority was building a very large and modern kitchen capable of feeding 10,000 people daily.

When we decided to go on this trip, we knew we didn’t have a lot of time, so we built our equipment for lightness and mobility. It’s not easy to get all of the survey equipment you need into to backpacks and two small carry-on bags. You have to be creative and decide what you want, but take what you need.

Among that equipment was a Focus scanner and supporting equipment along with a small level, rulers, and a miniature tripod that folded up to 23-inches but expanded to about 65-inches. Allen also brought along some very handy paper targets with numbers and lead weights to hold them and a series of globes that cost around $5 each.

We had a two-minute project meeting with the architect and then taped-up 8-10 paper targets in the main area and started scanning with the Focus. Then we taped about 60 targets around the campus on the sides of the buildings, constantly moving the globes ahead of us and using the lead targets.

Once we had completed scanning the campus and buildings, we moved on to the roof.

View from the roof!

When you’re working inside the campus gates, you forget where you are. But when you are on the roof, it all comes back. Not 15-feet away, we could see a small alley filled with families and kids. Even though they were too poor to eat, they would look up at us and smile and laugh. They were very excited to see something different.

From the roof, there is also a clear view of the “river,” which is nothing more than the local sewer system run-off covered in garbage. Hogs, goats, and cows graze alongside it.

The trip also included a trek to New Life Children’s Home, an orphanage and oasis owned by a local woman named Miriam who had once found Pastor Vincent as a very small child, almost dead from starvation. She took him in and nurtured him back to health. He ended up going to college in Tennessee and returning to Haiti to start several schools and orphanages there.

The orphanage, which houses close to 100 children, has running water, bathrooms, electricity, clean bedrooms and many of the comforts of home. The electricity is run by generators and turned off at night to save energy.

After dinner, Paul asked us to look at a few of the buildings on campus to see if they could be scanned and documented. We did a quick assessment of what could be done given their tight timeframe and decided to scan one of the bigger, more complicated buildings first thing the next morning.

When all of the scans of the buildings and school were complete, Pastor Vince took us on a tour of the impoverished surrounding area known as Destiny Village.

I took a lot of pictures and some video on my iPhone, but after a while, you feel bad documenting the poverty surrounding you and realize how little they have, need or want.

What my household throws away in a week would feed two or three families.

Headed home

After clearing customs at the airport and heading back to Miami, Allen and I went our separate ways. But the 25 hours we spent in Haiti will stay with us forever.

I’m glad we were able to use scanning technology in Haiti as there is no better, faster or more precise way to document data. But the scanning was the easy part.

The hardest part was seeing how these people live and the difference between our lives and theirs. We know we can’t save all kids displaced by earthquakes, hurricanes, and dishonest dictators and government corruption in Haiti. But if the kitchen gets built and the kids get fed, we may have helped to save a few. That was worth 25 hours in Haiti.

Tate Jones and Allen Nobles have been friends in the surveying business since 2007. Tate is the president and owner of LandAir Surveying Company, based in Roswell, Georgia. Allen is president and owner of Nobles Consulting Group, based in Tallahassee, Florida. Together, they have worked on projects all over America and generally share resources and technical expertise. To learn more, visit www.landairsurveying.com and www.ncginc.com.

 

An armed robbery, a high speed police chase and…laser scanning?

Sometimes I don’t have to look past the front page of the local newspaper to see a good example of laser scanning in action.

Tragically, there was a police-involved shooting in Cobb County, Georgia, this past weekend, as reported by the Atlanta Journal-Constitution. The suspect allegedly robbed a gas station and then led the police on a high speed chase. The chase ended on I-75 when the suspect pointed a weapon at the police officers and was shot dead.

This was a very unfortunate incident, but the impact on the community was far lessoned due to the outstanding work of the Georgia Bureau of Investigation.

The shooting and subsequent chase left many cars wrecked and damaged and, ultimately, the interstate was forced to close temporarily. As you can imagine, this was not a calm situation.

The GBI dispatched their laser scanning team to the site to set-up and scan the area to document the evidence both known and unknown at the time. They also generated 3D photography to further document the area in its entirety.

Using this method, they not only saved time, but were also able to quickly collect the data that would be necessary if the case were to go to trial.

So why use laser scanning to document a scene like this?

First, consider the sheer size of the scene. In this case, the area of study was larger than a football field. Without scanning, investigators would have had to take multiple photographs and make measurements with total stations that shoot one point at a time or worse, measure with 100 foot-long measuring tapes.

This takes much more time, requires more people, and creates much more chance for errors. The errors could be wrong measurements or even missed objects.

When you combine the laser point cloud data with the photographic data, the measurements and the scene become much more intuitive and obvious. You can place the evidence markers by the evidence within the scene and the scanner automatically picks them up.

Instead of making and recording many different angles and distances, you simple put in the points per square foot you want to capture into the scanner and in about 15 minutes, you have a completed scan with photography.

You can look at the scan and very clearly see the markers and measure from any object in the scan to any other object in the scan. So, if you need to know how long a skid mark is, for example, you would just click two points – one at the beginning and one at the end – and the measurement would be instantly generated.

With laser scanning, time at the scene is used to locate and mark the evidence and important points in the scene. All critical measurements can be made offsite after the scene is moved and the traffic is moving again.

Here’s the most important part: If you need information about the scene, but did not know it at the time of the scan, all is not lost! If it exists in the scan, you can make all the measurements you need to document the new (previously unknown) evidence.

More and more, laser scanners are being used to document crime scenes across the country. District attorneys like the scanned data because they can easily view it.

Scanned data is totally objective in that it collects the whole scene. It is easy to put a point down on the ground every square inch so that the coverage of the site is complete. Additionally, the fact that no one has to decide what measurements are made in the field before they release traffic is very important.

Judges like the data because the jury does not have to visit the site to understand the scene. Instead, they can simply view it in 3D on a computer screen without leaving the courtroom.

Laser scanning also saves time and money. Traffic still has to be stopped for an investigation, but if not for laser scanners, it would be stopped longer and there would be less information collected.

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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 forensic engineering, law enforcement, criminal defense, architectural and construction industries. Contact him at tjones@3DForensicScans.com, a division of the LandAir Surveying company.

3D Forensic Scans: Three civil applications

In my travels along the 3D laser scanning superhighway, I’ve spent a lot of time talking to criminal forensic experts. This group was one of the earliest adopters of laser scanning technology and I’ve had the pleasure of meeting agents with the FBI, the Secret Service, and even generals and admirals who are familiar with its capabilities.

In my experience, the most advanced groups in the specific application of the technology to prevent and investigate crimes have been the Secret Service and Scotland Yard. Both have programs written specifically to analyze the data and use it proactively to protect kings, queens and presidents.

High definition scanning allows you to check every site line – not just one or two.

Our firm has worked on several “criminal” projects over the years – some supporting the prosecutors and their evidence and others supporting the defense teams and their clients. But we also work with the litigation and documentation of forensic evidence for civil or construction projects.

Many jobs require our expertise to go out and document the existing conditions of a site. We have literally traveled from Montana to Texas to Georgia working with clients on various cases.

Perhaps the most famous civil forensics projects were the scans used for analysis of the World Trade Center attacks and the Minneapolis bridge collapse. On both of these projects, the scan data after the destruction of the structures was used to determine exactly what caused the failure.

Obviously, in the World Trade Center, the initial impact of the plane created the fire ball and damage, but it was the fuel in the plane that heated up the beams in the structures and ultimately caused them to fail, each floor collapsing on the one below as the entire structure came down. The melted beams were documented with laser data.

Structural Integrity

One of our first projects was scanning a three story parking deck. During the initial walk around, we could tell that the deck – even though made of concrete – was warped and some of the columns were out of plumb. Other areas were cracked and stressed.

We produced plans and models with the data and structural engineers were able to determine that the structure was unsafe. Because of the density of the data sets, engineers were able to look at all surfaces rather than a few strategic spot shots before making their final determination.

By being able to look at the line of the vertical columns through the building, engineers could tell that the cost to fix the failing structure would be much larger than building new.

Large Vessel Analysis

We also had another project where we were asked to scan a large containment vessel that held various types of liquid depending on the product being produced or stored.

In this type of investigation, we were able to document that a certain vessel was out of plumb, warped or bent. This information was then used to determine if the vessel was safe and, if not, how and when to replace it before a failure occurred.

Settlement Monitoring

Being able to monitor when and how much something is settling is very important to a property owner. We recently worked on a very large project in the western United States that involved a large platform used for loading and unloading products.

In this case, one long section had settled much more that the specifications allowed and had begun leaning at a dangerous angle. The engineer showed me previous surveys and I asked him why they needed us if they already had survey data on the structure.

He explained how the parties involved were having difficulty understanding the traditional survey data and its implications.

Once we scanned the platform in 3D and modeled it, it was quite obvious to everyone how badly the shape of the original structure had changed, as well as the principal cause of the failure. This helped move the group discussion from, “There isn’t a problem,” to “How do we get this fixed?”

We have completed many other civil forensic projects for engineers ranging from dam failures to vertical wall failures and even construction slabs that were not level or flat. The common element in all of these projects was that the use of laser scanning technology was the perfect tool to document the conditions and the data was easy to interpret and model into a visual form that everyone could understand.

Forensic scanning of crime scenes will continue to grow, as will the 3D laser scanning of complicated civil projects. 3D laser survey data is becoming mainstream in analyzing the cause of catastrophic civil construction failures. If you know how something fell to the ground, you can usually tell what failed first.

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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 forensic engineering, law enforcement, criminal defense, architectural and construction industries. Contact him at tjones@3DForensicScans.com, a division of the LandAir Surveying company.

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