 Now, we shall proceed to the next part, that is part, last part of your syllabus, that is application of zooinformatics. Okay, so in your syllabus, there are numerous applications of zooinformatics. Okay, right from say, natural resource management to say disaster management. Okay, so now I will try to demonstrate real application of zooinformatics, this entire field of science in different application and resources. Okay, so then we will just try to learn how this particular technology of zooinformatics are being utilized in different sector, then how people are making or decision maker are planning or taking their decisions. Because in the first video that we have looked that our main purpose of GS or zooinformatics is that to make better decision for better future. Future of home for the environment, society and wildlife. Okay, so now we will try to have a look on the real life application of this particular field of technology that is zooinformatics. Okay, so for that I have bought few web links. So in your syllabus you have natural resource management, in your syllabus you have water resource management, in your syllabus you have disaster management, in your syllabus you have real development, in your syllabus you have urban planning and in your syllabus you have another application monitoring projects. Okay, so for each of the sector I have bought one particular real time application, then I will show you. So, natural resource management means resource means natural resource. Resource means any kind of say particular thing or particular phenomenon having a utilization value for the human being. That is a resource. For natural resource means natural resource, the resource which are available naturally. Water resource is also a natural resource, like forest cover, natural resource. Okay, say for example coal, natural resource. So, how we can able to utilize this particular zooinformatics in this type of resource observation. Okay, we have disaster management. Now, the most important is disaster management. So, during the COVID time, during the flood, we see the real time application of zooinformatics for reducing the bad effect of disaster and hazards. Then we have real development in real areas, how this particular technology is being used for just mapping the real assets, applying the real development program of the government. In urban planning, in urban planning like city or traffic management, how this particular zooinformatics is being used. These things are there in your syllabus, but we will look few real time applications. So, first we will see natural resource management. For natural resource management, I have collected one website again. This is a particular multi-dimensional platform being developed by ISRO or NRSC, that is Bhupan. In Bhupan, what we can able to observe in that particular platform, the all type of real time application and projects which are being done at national level for our entire country by this particular organization ISRO, they are product, it means finished product. We can able to observe using this particular website or web portal, that is Bhupan platform. It means it is known as Bhupan thematic service. Anyway, so here we have different type of natural resource observations thing. You see land use land cover, you see wasteland, land degradation, glacial lakes, geomorphology, linemen, flood hazard, urban and sprawl, whatever the different type of application under it. But we will only see as per the application in terms of natural resource management, we will see land use land cover. Let us say we will pick land use land cover of 2015 and 6. Land use land cover means, land cover means natural cover on the surface of the earth. Land use means that natural cover is being utilized by human activities for their purpose. Then it is modified, then because of that it is known as land use. So, that is land use land cover. So, ISRO has developed different land use land cover classes and they have prepared land use land cover map for our entire country at or up to district level. So, for that we will just select, say we will see our asam. After selecting the natural resource management theme land use land cover, we will select the area for which step we are going to observe for our own state asam. Just let me click view. Once I click view, you see. So, I will get the land use land cover map of my area that is asam. Not only I will get the land use land cover map, with the map another important parameter I will get that is the numerical values or statistics of each and every land use land cover class. So, you see now if you see this particular map, these are the different land use land cover class. Say for example, this green color, green color means what do you see? Forest, evergreen forest or deciduous forest. This particular red color, this particular red color means the built up land. Built up means the settlement or human-made concrete surfaces. Then say, since this particular yellow color means what? Equical color. So, by observing this particular map, we can able to understand the distribution of different natural resource contents. But the thing is that these are only qualitative data. But how much agricultural land use are there in asam? So, for that in this particular portal, they have provided statistics. You see, under statistics, we will get even one pie diagram is also automatically stated. These are the applications of geoinformatics. You see, say built up urban, how much around 743 square kilometers of the land in asam are considered as the built up land, they have observed. Then again, here also another important observation you can do. This is state level observation. Now, we can also have district level observation, say dorong. You see. So, now dorong district land use land cover inside the boundary dorong, administrative boundary will be there, all dorong district. Now, here also under statistics, you see district wise. You see, now this is district wise statistic. It means dorong district land use land cover. Earlier in asam, built up land around 700, in dorong district built up land around 10 square kilometers and these are the proportional distribution. So, this is one platform. How? Geoinformatics or entire this technology are being utilized in national resource management. Now, we will quickly move to the next part that is in water resource management. In water resource management, we have another website called India worries. It means India water resource information system. And this particular website is also developed by ISRO, which say collaboration of different organization. So, from this particular portal, what data sets we can able to collect or visualize. So, this particular portal is developing such a way there to monitor the water resource. The basin boundary, river basin boundary, river water level, river sediment level, flood layer level, different type of water resource related information, which are addressed by this particular portal. And this particular portal is developed using the approach of geoinformatics. So, this is in water resource development. We will quickly move to the next one. Geoinformatics application in disaster management. Disaster means say beyond our tolerance. If any type of national or say human man phenomena goes beyond our tolerance, then it has a greatest effect on our humanity or environment, then that is a disaster. So, we have our best portal, this particular portal. From here, we can able to monitor in real time. Real time means what is happening right now or near time monitoring and management of all the atmospheric phenomena using that particular website. Very good website. Let us see. And this particular website is harnessing the technology of geoinformatics. So, in that particular website, we can able to monitor all type of meteorological or atmospheric phenomenon, r dot mal school. So, in this particular website, this is a this particular portal is developed using geoinformatics. So, here what we see? This is our Indian ocean. This is our India, this is Sri Lanka and these are what? Wind. Now, if we observe real time, this is current situation. So, how we can see that? Say if I just open this particular area, you see that is the now. So, now winds are moving like that. Satellite are providing real time data. So, how I am showing this particular website? So, few days back, we had one cyclone in Tamil Nadu in means Bay of Bengal. So, when it was now, we are visualizing it as it is. So, we will we can able utilizing this website, we can able to visualize the past record also or future model also we can predict. So, past record, let us quickly move to the say I think that 4, that 4 we have that particular cyclone. So, let us see you see the cyclone on that 4, then that 5, where was the cyclone? It will come. So, you see that 5, it is almost finished. So, that is how we can utilize this particular website. Then here if I click here say for example, in that 4 we have that particular cyclone. So, here if I click over here you see I get one point it means on that particular location the cyclone wind is moving at 72 kilometer per hour speed at which location at this particular latitude and longitude absolute location that is there in your content. So, in this way we can able to generate real time information about different hazards. Now, this is climate hazards. So, now the India worries it is coming. So, here also you can able to visualize different type of water resource information. So, again it is taking time. So, let us move to the another application that is for rail development. So, this Gram-Mansitra, this particular web portal is developed by harnessing the geoinformatics technology and this is related to pancyater village level mapping of national assets as well as human medicines right from roads, buildings, community hall up to the different government project. So, Gram-Mansitra this particular Gram-Mansitra means map and Gram means village areas. So, this particular portal is developed by ministry of pancyater's working with NRSC and here up to village level you can able to collect different type of rail development information. And for urban planning we have another website that is it is also developed using Bhubon platform you have heard about Padhanmanti Awasi Juna. So, like Padhanmanti Awasi Juna like we have for rail areas it is for urban areas too. For urban areas also we have Padhanmanti Awasi Juna. These particular projects or government missions are now a days being monitored using geoinformatics for quite for transparency whether the house is made or not whether trees are planted or not you can able to get that particular information using remote sensing GIS or geoinformatics technology. So, now you see this is what Padhanmanti Awasi Juna for urban areas. So, using this geoinformatics they have developed this portal here say we have different type of states. So, let us select our state Assam then district say district take for example Cambro metropolitan district then city means Guwahati. So, let us view once I click view you will get view point information here you see and with lizard it means this particular point color it means the house Padhanmanti Awasi Juna house is not started yet. These particular color means only foundation is done. These particular color means the lintel is done. These particular color means roof is done and these green color means completed. So, let us view to the location that is Guwahati city. Let us go you see these are the exact location where that particular house is constructed. Using that geoinformatics you can also able to get the attribute information of that particular location. If I click here if I click here you see these particular house is for Jamila Khatun. See Jamila Khatun that is the house and you see here the color is green that is why it is completed. You see then another say red color I will click here red color you see not completed started and volatile. So, each and every information you can able to integrate within map and that is how transparency works. Then any parcel even our PM sitting in Delhi he can say assess whether field level work is going on or not. He should not come here to see that particular house. That is the one type of example how geoinformatics is being applied in urban affairs or urban planning. So, now another website we have four projects. We have different projects or missions being operated by Government of India. Like I have shown this for Hanwanty Abhaj Johna, for Hanwanty Gram Sarake Johna, Ruban Mission, different missions. So, here this another particular mission is our project that is being done by Government of India with Ministry of Consciousness this Swamit Bhav project. Then in Swamit Bhav project this project is directly related to geoinformatics. How this project is related to the updation or digitalization of boundary records. State boundary, district boundary, village boundary, industrial level work, property boundary. So, in India say we do not have most of the areas do not have this particular digital boundary, digital land records. So, using this particular mission Government is digitizing the old records where we have old map or traditional maps. They are digitizing using geoinformatics technology or where we do not have village boundary records or any type of boundary records. Especially in the hilly areas of notice India or hilly areas of India. So, what they are doing they are just finding groom. Using groom survey they are collecting the high resolution data of the art surface. Then by processing the collected data in GIS or geoinformatics they are preparing or developing the map. So, here you see currently where they are surveying that current status in India you will get. It may take time. So, one of the best project where people from geoinformatics are being employed here. Because this entire project say we had earlier project Pradhamanti Abhajeshwana they have taken the help of geoinformatics. But this particular scheme is directly related to geoinformatics. Why? Because it is related to updation of or digitization of boundaries. Boundaries means country level boundary, district level boundary, village level boundary up to color spell level boundary. That is the real time application of our geoinformatics field of science. These are the few applications of or some of the important application of this geoinformatics. For what? Managing the disaster, monitoring the disaster. For planning our national resources, for monitoring our water resources. For say applying or monitoring or utilizing the Gohome resources in a transparent mode or in different type of urban planning as well as rural development application. So, with this I wish to conclude today's session. Thank you.