Tuesday, 30 January 2018

GIS and Its Applications In Huge Number of Fields Worldwide




As you have seen, what is GIS, so I hope you have a sufficient idea about the GIS. Now, all you are searching is for areas of GIS applications and what you can do in it. We need to know about GIS and its applications in various global industries. Well, I must tell you that there are actually over 1000 applications of GIS, but here I shall cover a few areas of GIS application.
So, let's start with some known areas of GIS and its applications.



Most Common Areas of GIS Applications

1.       Agriculture

GIS application in agribusiness, for example, rural mapping plays a crucial part in the administration of soil and water system of any farmland. The GIS horticulture and farming mapping have primary devices for management of the rural area. They work by creating and executing the precise data into a mapping domain. GIS application in farming additionally helps in administration and control of horticultural assets.


2.       Disaster Management

One of the main areas of GIs application relates to disasters. Disaster GIS application has its uses in the Earthquake prediction, Richter scale mapping, measuring landslide vulnerability, knowing the hurricane response and creating evacuation plans.
Specialists can predict the natural disasters and can make the impact of a calamity less.

3.       Crime Analysis and Statistics

GIS is vital to law enforcement and planning regarding crime analysis. Most cop-forces in the USA are using this GIS application for a long time. Programmed and digital mapping of stated crime has made the method much easy, especially considering the increasing number of crime rates. The strength of this GIS application to share maps and study for correlations between various types of crimes gives police a better opinion of an overall situation.
The Crime GIS application helps in responding to crimes in a data-driven way and tracing out the location of criminals. It is also used in making an incident map, auto-theft, and recovery, emergency calls, and dispatch. Furthermore, GIS is helpful in missing body search, forensic, stalking, illegal smuggling location finding and many more uses.

4.       Transportation

The GIS application has significant application in transportation, too. It helps in the creation of efficient and safest routes for travel or products delivery and outlining traffic rules.  More usages include parking problems, logistics management, street repair, airline and railway planning, urban traffic air pollution, etc.

5.       Telecommunications and Networks

Radio-wave propagation, locating cell towers, network management, antenna height optimization are some of the uses of GIS application. The task of ensuring the proper network functions including billing, outages, and testing by GIS shared services.

6.       Archaeology

This GIS application also holds utmost importance. GIS is presently basic to numerous components of archaeology as it goes up against more elements and attributes of environmental science.
Revealing lost cities with the help of LiDAR, doing the archaeological survey, geographic text analysis, site investigation, 3D archaeology are the areas to work, to name a few.

7.       Public Health

The global disease monitoring in real-time for creating health map, tracking the outbreak and spread of various dreadful diseases like Ebola, Asthma, etc. is one of the main jobs. Finding distance to health care and public health informatics are also equally important tasks of GIS application.

8.       GIS Mapping

Mapping serves as the one of the extensive functionality of GIS application. It is used for mapping the spatial location of genuine-world specialties and imagine the spatial connections among them. It studies the relations between different places, mapping population density. Also, scanning the land areas and finding out what is happening in an area. These are few examples of various fields where GIS mapping is used.
So, here are some of the majorly known areas of GIS application and so are the opportunities in various fields; be it Government or Private Job sector.
Don't forget to explore more areas as there are thousands of them.

Monday, 29 January 2018

A Complete Guide To What Is Lidar: Light Detection And Ranging




Ever imagined that you can calculate how far everything is away from you? Yes, LiDAR (Light Detection and Ranging) does this for you. Excited to know what is LiDAR? What are its types and what magic it can perform in this era of modern technology? Let’s have a quick look!
What is Lidar (Light Detection and Ranging)?
Basically, LiDAR is a distance technology. It is the latest disruptive technology having its use in various fields and now in the construction industry as well. From an aircraft or a helicopter, the lidar system actively sends light energy to the ground. The signal hits the ground and returns to the sensor.

It measures the time for the emitted light to return back to the sensor, and in the end, it gets a changeable distance to the Earth.
What are the types of Lidar?
There are basically two types of Lidar: Airborne and Terrestrial Lidar systems.
Let’s take a close look at each type one-by-one.
 
1    1. Airborne Lidar
The Light Detection and Ranging is an exciting technology to know. In the Airborne Lidar, the system installs on the wing of an aircraft or helicopter. The infrared lights are emitted towards the ground, and it returns to the moving airborne lidar sensor. There are two main types of airborne sensors: Topographic and Bathymetric Lidar
2    2. Topographic Lidar
The Topographic Lidar marks its presence to obtain surface models that are useful in many applications such as forestry, urban planning, landscape ecology, coastal engineering as well as survey assessment, etc.
3  3. Bathymetric Lidar
Bathymetric Lidar is a type of airborne lidar that is water penetrating. Many of the bathymetric lidar systems use in collecting elevation and water depth which provides an airborne lidar survey of the land-water interface.
Traditionally, in Bathymetric Lidar systems, the infrared light reflects back to the aircraft from the land and water surface. While the additional green laser travels through the water column and therefore measures the exact distance. To establish water depths and shoreline elevations it uses the analysis of two different pulses. 
The Bathymetric information has its significance near coastlines, in harbors and near shores and boundaries of rivers. The Bathymetric information is also helpful in locating objects on the ocean floor.
Now let’s move on to the next type of Lidar: Terrestrial Lidar
4     4.Terrestrial Lidar
In this Lidar system, there are two main types: Mobile and Static
In the case of mobile, as the name suggests, the lidar system is fixed on a moving vehicle. Whereas, in the case of static, the lidar system is fixed on a tripod or on a stationary device. Both the lidar sensors comprise eye-safe lasers.
The Terrestrial Lidar compiles very dense and highly exact points which allow accurate identification of objects. These compact point clouds are used to manage facilities, conduct highway and railway surveys and even use in creating 3D city models for exterior and interior spaces.
Following is the brief look at Mobile and Static Lidar
5    5.Mobile Lidar
It is the collection of lidar point clouds from a moving base. Mobile Lidar systems include any number of lidar sensors fixed on a moving vehicle. These types of systems mounts on vehicles, trains and even on ships. The Mobile systems consist of a Lidar sensor, cameras, GPS (Global Positioning System), and an INS (Inertial Navigation System) same as like of Airborne Lidar systems.
The Mobile Lidar data is not only useful in analyzing the road infrastructure but also helps in locating the trespassing overhead wires, light poles and various road signs near roadways or rail lines.
6     6. Static Lidar
It is the gathering of lidar point clouds from a static location. Typically, in static lidar, a portable laser-based imaging and ranging sensor are placed on a tripod. These systems collect the lidar point clouds from inside as well as the exterior of the building. The typical application of static lidar systems is engineering, mining, surveying, and archeology.

Lidar Data is precious GIS resource
The Light Detection and ranging, i.e., LiDAR is accurate and covers the large areas on the ground. You can also visualize bare ground elevation, canopy heights, light intensity and much more. Anyone who is looking for understanding landscape topology should, therefore, use LiDAR.
With its tremendous working capabilities, LiDAR is a behemoth of a data set to work with. It uses LAS file format to store the LiDAR files as a point cloud data and hence, streamlines smooth exchange between vendors and customers with no loss of information.

LiDAR Applications
The Light Detection and Ranging make use of lasers to measure the elevation of features like forests, buildings as well as of the plain earth.
It is somewhat similar to sonar (Sound waves) or radar (Radio Waves) as it also sends a pulse and measures the exact time it takes to return. LiDAR is difficult from sonar and radar as it uses light to measure the accurate time as well as distance.
The LiDAR applications are impressive and are undoubtedly growing in GIS systems.

Following are some LiDAR Applications:

Forestry, Archaeology, land use mapping, flood modeling, transportation planning, architecture, oil and gas exploration, public safety, automated vehicles, military, and conservation also make use of Lidar.
We try our best to explain the Light Detection and Ranging. Hope this guide is helpful for you.