Presentasi | Pendekatan dalam Penelitian Geologi : Penginderaan Jauh | - Kelompok 2 (ManRisGeo)

Atiqa Mardha

18 Oct 202414:03

Summary

TLDRThis presentation explores remote sensing, defining it as a science that gathers information from a distance using electromagnetic waves. Key components include energy sources, the electromagnetic spectrum, and sensor technology. The advantages of remote sensing, such as efficiency and real-time data, are balanced by disadvantages like high costs and potential inaccuracies. The presentation categorizes remote sensing imagery into photographic and digital types and outlines processing methods. Finally, it highlights practical applications in land use planning, agricultural monitoring, and water resource management, showcasing the significant role remote sensing plays in various fields.

Takeaways

📡 Remote sensing is a method of gathering information about objects without direct contact, utilizing electromagnetic waves.
🌍 It helps in understanding geological structures, vegetation patterns, and the lithology of rocks beneath the surface.
☀️ Energy sources for remote sensing can be categorized into direct (e.g., devices) and indirect (e.g., natural sources like sunlight).
🌈 The electromagnetic spectrum is crucial for remote sensing, with visible light being the most significant range for human perception.
📊 Remote sensing has advantages such as efficient data collection over large areas, providing real-time data, and accessing hazardous locations.
💰 However, it also has disadvantages, including high costs for data acquisition, potential inaccuracies, and challenges in identifying certain objects.
📸 Remote sensing images can be photographic (taken from aircraft) or digital (acquired from satellites), each serving different purposes.
🔍 Processing methods for remote sensing data include georeferencing, cloud masking, temperature calculations, and accuracy testing.
🌱 Applications of remote sensing extend to land cover mapping, agricultural monitoring, and flood management.
🚀 Advanced technologies enable remote sensing to provide detailed insights essential for environmental management and planning.

Q & A

What is remote sensing?
-Remote sensing is the science of obtaining information about objects or areas from a distance, typically using electromagnetic waves collected through sensors mounted on satellites or aircraft.
What are the main components of remote sensing?
-The main components of remote sensing include the energy source, electromagnetic spectrum, interaction with targets, image capture, sensors, and data transmission and processing.
What types of energy sources are used in remote sensing?
-Energy sources in remote sensing are categorized into direct sources, such as gadgets used in daily life, and indirect sources, like solar radiation and geothermal heat.
How does the electromagnetic spectrum relate to remote sensing?
-The electromagnetic spectrum includes different wavelengths of light, with visible light detectable by the human eye (400-700 nm). Sensors are required to capture other wavelengths, which are not visible to humans.
What are the advantages of remote sensing?
-Advantages of remote sensing include efficient data collection over large areas in a short time, real-time data availability, the ability to gather data from hazardous or inaccessible locations, and capturing images from various angles and wavelengths.
What are some disadvantages of remote sensing?
-Disadvantages include high costs for data acquisition and processing, potential inaccuracies that require validation through ground truthing, and difficulties in accurately identifying certain features.
What types of imagery are used in remote sensing?
-Imagery types include aerial imagery captured by aircraft, which can be further divided into color, color infrared, and black and white, as well as digital imagery obtained from satellites, such as weather, earth resource, and ocean monitoring satellites.
What are the key processing methods in remote sensing?
-Key processing methods include data input and georeferencing, cloud masking, temperature calculations, accuracy testing, pixel analysis, and classification of land cover using algorithms.
How does remote sensing benefit agriculture?
-Remote sensing aids agriculture by monitoring crop conditions, classifying types of crops, and providing data on growth schedules, which helps in effective planning and management.
What role does remote sensing play in hydrology?
-In hydrology, remote sensing is used for monitoring water bodies, measuring flood impacts, and assessing water volumes, thereby supporting better water resource management.