- Afirika
- Ede Albania
- Amharic
- Larubawa
- Ara Armenia
- Azerbaijan
- Basque
- Belarusian
- Ede Bengali
- Ede Bosnia
- Bulgarian
- Catalan
- Cebuano
- China
- Corsican
- Ede Croatian
- Czech
- Danish
- Dutch
- English
- Esperanto
- Estonia
- Finnish
- Faranse
- Frisia
- Galician
- Georgian
- Jẹmánì
- Giriki
- Gujarati
- Haitian Creole
- Hausa
- ara ilu Hawaiani
- Heberu
- Rara
- Miao
- Ede Hungarian
- Icelandic
- igbo
- Ede Indonesian
- Irish
- Itali
- Japanese
- Javanese
- Kannada
- Kasakh
- Khmer
- Ede Rwandan
- Korean
- Kurdish
- Kirgisi
- Iṣẹ-ṣiṣe
- Latin
- Latvia
- Lithuania
- Luxembourgish
- Macedonian
- Malagasy
- Malay
- Malayalam
- Èdè Malta
- Maori
- Marathi
- Mongolian
- Mianma
- Nepali
- Norwegian
- Norwegian
- Occitan
- Pashto
- Persian
- Polish
- Portuguese
- Punjabi
- Romanian
- Russian
- Samoan
- Scotland Gaelic
- Ede Serbia
- English
- Shona
- Sindhi
- Sinhala
- Slovakia
- Slovenia
- Somali
- Sipeeni
- Ede Sundan
- Swahili
- Swedish
- Tagalog
- Tajik
- Tamil
- Tatar
- Telugu
- Thai
- Tọki
- Turkmen
- Ukrainian
- Urdu
- Uighur
- Uzbekisi
- Vietnamese
- Welsh
- Egba Mi O
- Yiddish
- Yoruba
- Zulu
Awọn ọja Conservancy Omi Ati Awọn iṣẹ
paramita
|
Digital twin river basin standardized data base plate |
Water regulation |
|
DOM Data Backboard |
Establishment, revision and updating of reservoir capacity curve |
|
DEM/DSM Data Baseboard |
Irrigation area monitoring and water consumption calculation by remote sensing |
|
Flood and drought disaster monitoring services |
paramita
|
River basin flood control project construction monitoring |
River and lake supervision (river and lake chief system management) |
|
Situation of Reservoir construction |
River and lake sand mining planning |
|
Safety of dam and reservoir bank |
River and lake remote sensing feature interpretation |
|
The construction of flood storage area |
Investigation of prominent problems hindering river flood flow |
|
River channels and beware of construction |
Planning for the protection of key river banks and shorelines |
|
|
"Normalize and standardize" the four disordered areas in Qing Dynasty |
|
|
The boundary data of shoreline spatial control of river and lake management waters are dynamically updated |
paramita
|
Soil and water conservation supervision |
Supervision of water environment and water ecology |
|
Soil and Water Conservation |
Bloom monitoring |
|
Disturbance supervision |
Outfall monitoring |
|
Cage fish culture |
|
Marine regulation |
|
|
Coastlines, reefs and beaches monitoring |
|
|
Fishery resources Monitoring |
|
|
Enteromorpha and red tide monitoring |
|
|
Marine Disaster Warning
|
Application Of Monitoring The Construction Of Water Conservancy Facilities
For the full coverage of remote sensing data of Jilin-1 satellite and high revisit ability, it can timely monitor the construction of water conservancy facilities, dam and reservoir bank safety, flood storage area construction, river and guard construction, etc., assist the water conservancy department in the construction and management of water conservancy projects, improve the construction quality of water conservancy projects, and comprehensively understand the progress of the project.
Eto satẹlaiti Jilin-1, ti a mọ fun agbegbe kikun ti data oye jijin ati agbara atunbẹwo giga, ṣe ipa pataki ninu ibojuwo ati iṣakoso awọn ohun elo itọju omi. Imọ-ẹrọ ti o ni ilọsiwaju ti o ni ilọsiwaju ngbanilaaye fun ipinnu giga-giga, akiyesi akoko gidi ti awọn amayederun gẹgẹbi awọn dams, awọn ifiomipamo, awọn ọna irigeson, ati awọn embankments odo, pese data pataki fun titele ilọsiwaju ikole, igbelewọn iduroṣinṣin igbekalẹ, ati wiwa eewu kutukutu.
Pẹlu agbara atunbẹwo-igbohunsafẹfẹ giga rẹ, Jilin-1 le nigbagbogbo mu ati mu awọn aworan dojuiwọn ti awọn ipo ibi-afẹde, aridaju wiwa akoko ti awọn ayipada ninu awọn ipele omi, iduroṣinṣin ile, ati awọn ailagbara igbekale. Agbara yii ṣe pataki ni pataki fun idena ajalu, bi o ṣe n fun awọn alaṣẹ laaye lati ṣe idanimọ awọn ewu bii gbigbẹ ilẹ, ogbara idido, ati awọn irokeke iṣan omi ṣaaju ki wọn to pọ si.
Moreover, the satellite’s multi-spectral and high-resolution imaging enhances the ability to monitor environmental conditions around water conservancy projects, such as vegetation cover, sedimentation, and water pollution levels. This data supports decision-making for sustainable water resource management and climate adaptation strategies.
By integrating Jilin-1 remote sensing data with geographic information systems (GIS) and artificial intelligence, real-time monitoring and predictive analysis can be further enhanced, improving response efficiency and safety measures. The satellite’s capability to provide accurate and timely data reduces reliance on ground inspections, lowering operational costs and improving the overall resilience of water conservancy infrastructure. Thus, Jilin-1 serves as a powerful tool for governments, environmental agencies, and engineering firms to ensure the safety and efficiency of water-related projects.
