The document outlines the BIRDS (Joint Global Multi-Nation Birds) project, which aims to build and launch a constellation of 1U CubeSats from five countries including Mongolia and Japan. The project will provide hands-on engineering experience for students and help non-space faring countries enter the space field. It details the satellite design, integration and testing process, ground station setup, operations plan and timeline, with a total cost of around $100,000 USD per satellite.
Defense presentation of land capacity study2GeoMedeelel
This document summarizes a land capacity study conducted in Ulaanbaatar, Mongolia using GIS analysis to identify unclaimed areas suitable for household land ownership. The study analyzed existing and planned land use, protected areas, slope suitability, and engineering network buffers. Over 110,000 hectares of unclaimed land was identified, most located west and northwest of the city. A prototype online land application system was developed to allow citizens to apply to change the status of existing land parcels. Future work should focus on regional planning and feasibility studies to encourage decentralizing settlements into the identified unclaimed areas according to the city's long-term plan.
This document outlines a study to estimate above-ground biomass and carbon stock in boreal forests in Mongolia using satellite data and machine learning. Boreal forests cover about 9.2% of Mongolia but have been declining in recent decades. The study aims to develop a suitable machine learning model to map forest biomass and carbon stock. Random forest was the best performing model with an R2 of 0.24 and RMSE of 33 Mg/ha. Important input features included shortwave infrared band 1, green leaf index, and radar polarization data. The predicted forest biomass ranged from 32.5-122.5 Mg/ha and carbon stock ranged from 16.5-62.5 Mg C/ha. Some reference
The document outlines a study that uses multispectral drones and ground sampling to collect vegetation data from pasture sites over three sampling periods in June, July, and August. Various vegetation indices will be calculated from the drone and ground spectrometer data to analyze changes in biomass, chlorophyll content, and other vegetation metrics over time. A total of 285 sample points will be collected and various biophysical parameters will be measured at each point to analyze temporal changes in pasture sites.
The Mongolian Geospatial Association has a board that executes the CEO and Secretary. It has 9 technical commissions and 3 member communities. The association has regular, student, institutional, honorary, and advisory members. It partners internationally and participates in activities in countries like the US, UAE, Taiwan, South Korea, and others. In 2021, the association held webinars, talks, workshops and participated in a United Nations workshop on GNSS applications. It celebrates GIS day and holds monthly geo-meetings and quarterly geo-forums.
The document provides an overview of CHCNAV's AlphaUni 300/900/1300 mobile mapping solutions. It describes the key features and performance specifications of the AlphaUni series, including its universal lidar platform design, accuracy levels, data storage capabilities, and compatibility with various installation methods for airborne, vehicle, boat, and backpack use cases. The document also introduces CHC's new BB4 UAV platform as a high-payload professional solution for airborne lidar applications.
Mongolia has been involved in space technology since 1965 under the INTERCOSMOS program. The first satellite data receiving station and weather satellite ground station were established in 1970. In 1981, J. Gurragchaa became the first Mongolian cosmonaut. In 2017, Mazaalai, Mongolia's first satellite, was launched into space.
The Space Technology Association of Mongolia is the main organization related to space technology. It has a board, CEO, secretary and various technical commissions. Members include students, regular members, institutions and honorary members. The association partners with space organizations in countries around the world and participates in international conferences and workshops on space technology.
Mongolia began developing space technology in 1965 under the INTERCOSMOS program. Some key early developments included establishing the first satellite data receiving station in 1970 and a meteorological satellite data station. The first Mongolian cosmonaut launched in 1981. More recently, Mongolia launched its first satellite, Mazaalai, in 2017.
The Association of Mongolian Geodesy and Cartography brings together members involved in fields like photogrammetry, GIS, and surveying. It has over 1500 members across categories like students, institutions, and honorary members. The Association partners with space technology organizations internationally and runs various events and programs.
Demonstration of super map ai gis technology GeoMedeelel
This document demonstrates SuperMap's AI GIS technology. It discusses geospatial deep learning and the AI GIS workflow, including data acquisition and preparation, model building and management, and model application. It provides examples of using deep learning models for tasks like object detection, segmentation, and classification of imagery. The workflow and tools for training models with SuperMap software and deploying trained models as web services are also described. A case study on building extraction is presented to illustrate the full AI GIS process.
Supermap gis 10i(2020) ai gis technology v1.0GeoMedeelel
This document provides information about SuperMap Software Co., Ltd. It includes:
1. Background information on SuperMap such as its founding date and headquarters location.
2. Market share data showing SuperMap has the largest share of the GIS software market in China.
3. An overview of SuperMap's products and technologies including distributed GIS, cross-platform GIS, 3D GIS, big data GIS, and AI GIS.
2. 1
Нээлттэй өгөгдөл гэж юу вэ?
Өгөгдлийн хэсэг нь-ашиглахад чөлөөтэй, дахин
ашиглах ба хуваарилаж болох агуулга, хэрэгцээнээс
шалтгаалах өгөгдөл эсвэл хамтран адилтгахыг хүссэн
хүн бүхэнд нээлттэй.
Хүмүүс, баг,эсвэл оролцогчдын хооронд ялгаварлал
байхгүй.
This approach brings at least public savings and
allows a fair competition between companies, what
strengthen economics.
3. OSM-гэдэг нь чөлөөтэй хэрэглэж татаж авч болох бүхэл дэлхийн байг
чиглүүлэн зураглал хийх web төсөл юм. Үүнийг 2004оноос эхлэн Английн
сурагч хийж эхэлсэн.
= +
www.osm.org
OpenStreetMap- гэж юу вэ?
It is based on the joint action of thousands of contributors working voluntarily.
Anyone can participate!
4. 1
History and Stats
http://wiki.openstreetmap.org/wiki/History_of_OpenStreetMap
а
2004оноос хойш энэ төсөл
нь 1.300.000н хэрэглэгчтэй
болсноос гадна 2тэрбум-аас
их цэг үүсгэн өсөн тэлсэн
байна.
http://wiki.openstreetmap.org/
wiki/Stats
The ongoing OSM contributions can be followed on
http://live.openstreetmap.fr/
One year of edits can be watched on
http://vimeo.com/56374742
5. 1
“Legal” Details
Was Licensed CC-BY-SA 2.0
Moved towards ODbL
Kate Chapman's article about OdbL:
http://www.maploser.com/2012/03/03/odbl-what-the-heck-can-you-do-with-it/
13. History
It is possible to know what has been updated
recently over an area
Талбай дээр саяхан юу шинэчлэгдснийг мэдэх
Боломжтой
14. History
1
It is possible to know who are
the active contributors in an area
Хэн Талбай дээр идэвхтэй зохиогч байна вэ
Гэдгийг харах боломжтой
15. 1
The analysis shows that, where OSM was
collected by several
users and benefited from some quality
assurance, the quality
of the data is comparable and can be fit for
many applications.
The positional accuracy is about 6 metres,
which is expected
for the data collection methods that are
used in OSM. The
comparison of motorways shows about
80% overlap between
OSM and Ordnance Survey .
Quality: Muki Aklay (UCL)
positional accuracy comparisons
United Kingdom: OSM -
Ordnance Survey Meridian II
database
Haiti: OSM - GoogleMapMaker
– MINUSTAH/CNIGS
The quality of OSM data
demonstrated by scientific researches
16. 1
not submitted to political constraints
Example in China where OSM has no random offset
Osm-бол улс төрийн баригдмал байдалд
захирагдаагүй чөлөөт зураг юм жишээ нь
Хятадад osm-нь таамгаар хийснийг нөхөн
хаасан
17. 1
What are the OSM topological features?
OSM-ийн математикийн ухааны
хэрэглэгдэхүүний илэрхийлэл нь юу вэ?
18. 1
OSM Data Structure
Based on the idea of key/value pairs
Түлхүүр үгний санаанд тохируулсан түлхүүр үг/ хос
утгууд
highway=primary шулуун
зам=нэн тэргүүний
name=I66
building=yes
address=123 Main Street
city=Somewhere
amenity=hospital
name=Sacred Heart
19. 1
How tags/attributes are defined?
Яаж хаяг/шинж чанар
тодорхойлогддог вэ?
If the tagging system is fully flexible, allowing anyone to create new keys/values, it is strongly
recommended to use the already existing, debated, approved and described tags so that the
OSM data remains consolidated as much as possible.
Хэрвээ хаягийн систем нь хүн бүхэнд шинэ утга/түлхүүр үг үүсгэж болох бүрэн
чөлөөтэй байдлыг зөвшөөрсөн байвал, энэ нь аль хэдийн байгаа зүйлийг ашиглах,
хэлэлцэх, батлагдсан ба хэлэлцүүлэг явуулсан хаяг ба OSM-н үлдэгдлийг хамтран бүх
өоломжоор нь өгөгдөл оруулах юм.
The OSM tags can be found on the wiki : http://wiki.openstreetmap.org/wiki/Map_Features
20. 1
Contributing to OSM: mapping over Imagery
OSM-д оролцох: дүрслэл дээр зураглал
хийх
Bing allows the OpenStreetMap contributors to trace over all its imagery.
32. 1
OpenStreetMap and humanitarian data
Interest for an open data, easily accessible for crisis response and quickly created by a
numerous community of contributors started with the earthquake that hit Haiti on
January 12, 2010.
This major disaster affected the Capital City, Port-au-Prince, and the towns on its west
side, causing maybe 200 000 casualties.
Within a few days, the response of the OSM community to map the affected areas has
been intensive.
https://www.youtube.com/watch?v=3XPvVcUNrjQ