Micasense Altum-PT Multispectral Sensor

2,368,000

  • 12 MP & Thermal Sensors: Advanced sensors for high-resolution imagery, ideal for machine learning in agriculture.
  • Synchronized Capture: Streamlines data with multispectral, thermal, and RGB outputs, eliminating post-process alignment.
  • Accurate Data: Ground-level calibration and light sensing for precise, adaptable agricultural analysis.
  • AI Insights: Enhances crop counting and vegetation research with high-resolution imagery.
  • Agricultural Optimization: Aids in irrigation, disease detection, and yield estimation through thermal and multispectral imaging.
  • Light & Compatible: Easy UAV integration at 577g, with open APIs for broad software support.
1 Year Warranty
After Sales Service

Description

Altum-PT Multispectral Sensor – For Drones

The MicaSense Altum-PT Multispectral Sensor represents a significant leap forward in precision agriculture technology. Engineered to provide an unparalleled depth of data, this advanced sensor combines high-resolution multispectral imaging across six spectral bands with thermal imaging capabilities. The Altum-PT captures detailed plant health imagery and temperature data simultaneously, offering insights into crop health, water stress, and disease presence. Its integrated radiometric thermal camera maps temperature variance across a field, enhancing analysis accuracy. Designed for seamless integration with a variety of drones, the Altum-PT is a robust tool for agronomists, researchers, and farmers aiming to optimize crop management, improve yields, and reduce input costs.

The MicaSense Altum-PT stands as a pinnacle in the field of agricultural technology, designed to empower precision farming through advanced imaging and analysis. Here’s a detailed look at its standout features:

  1. 📸 Six Spectral Bands: Equipped with six specific spectral bands: blue, green, red, red edge, near-infrared (NIR), and an additional band for enhanced crop health insights and detailed vegetation monitoring.
  2. 🌡️ Thermal Imaging: Features a radiometric thermal camera that measures temperature variations across the landscape, crucial for identifying water stress, disease, and irrigation system inefficiencies.
  3. 🔍 High-Resolution Imagery: Delivers high-resolution multispectral and thermal images, providing detailed insights into crop health, vigor, and environmental conditions.
  4. 🔄 Synchronized Capture: Simultaneously captures multispectral and thermal imagery, enabling comprehensive analysis in a single flight for efficient data collection and processing.
  5. 📈 Advanced Data Analysis: Supports powerful analytics for generating precise vegetation indices, thermal heat maps, and other critical data points for in-depth agricultural analysis.
  6. 🌐 GPS Integration: Integrates GPS data with images for accurate geotagging, facilitating precise mapping and monitoring of crop health over time.
  7. 💡 Low-Light Performance: Performs exceptionally in various lighting conditions, including low-light scenarios, ensuring consistent image quality and data accuracy.
  8. 🔌 Easy Integration: Compatible with a wide array of drones, offering flexible mounting options and streamlined integration for various unmanned aerial vehicles (UAVs).
  9. 🔋 Efficient Power Consumption: Designed with efficiency in mind, it minimizes power consumption, extending drone flight times and maximizing operational efficiency.
  10. 🛠 Durable and Rugged: Built to endure the rigors of field use, its durable construction ensures reliability and longevity under diverse environmental conditions.
  11. 🔄 Real-Time Data Processing: Capable of processing data in real-time with compatible software, providing immediate insights for timely decision-making.
  12. 📡 Wi-Fi Connectivity: Offers Wi-Fi connectivity for easy data transfer and remote sensor management, enhancing field operation workflows.
  13. 🌍 Global Operation: Engineered for global use, with support for multiple languages and operation in varied geographic regions without restrictions.
  14. 🛡️ Data Security: Features advanced data security measures to protect sensitive information, ensuring data integrity and user privacy.
  15. 👩‍🌾 User-Friendly Software Support: Comes with intuitive software solutions for data processing and analysis, making it accessible to users of all expertise levels.
  16. 📚 Comprehensive Educational Resources: Supported by a wealth of online tutorials, documentation, and customer service, MicaSense ensures users can fully leverage the sensor’s capabilities.
  17. 🔄 Flexible Configuration Options: Allows for customization of imaging settings and parameters to suit specific project needs and objectives.

The MicaSense Altum-PT Multispectral Sensor redefines the capabilities of precision agriculture, offering an all-in-one solution for detailed crop monitoring, environmental assessment, and operational efficiency. Its integration of multispectral and thermal imaging, combined with advanced analytics, makes it an indispensable tool for modern farming practices.

Micasense Altum-PT Multispectral Sensor

Captures thermal and multispectral data simultaneously for comprehensive analysis.

Featuring a 12 MP high-resolution panchromatic sensor, this system boasts an enhanced thermal sensor with double the ground resolution of its predecessor, along with five unique spectral bands. Optimized for machine learning tasks like early-stage crop counting due to its superior resolution, it ensures distortion-free imagery with a global shutter, offers open APIs for seamless integration, and introduces a novel storage solution facilitating capture speeds of up to 2 frames per second, setting a new standard in precision agriculture.

Micasense Altum-PT Multispectral Sensor

Altum-PT, tailored for UAV use and vegetation mapping, excels in diverse applications across precision agriculture.

The Altum-PT SkyPort ensures perfect compatibility with DJI’s M300 RTK drones. The camera also features an open API interface for easy integration with many popular drone and software platforms.

Irrigation System Monitoring

Altum-PT’s thermal imaging is crucial for pinpointing irrigation system problems, revealing temperature variations from clogs or leaks and highlighting zones of over or under-irrigation. This capability offers critical insights, enabling the identification and rectification of irrigation inefficiencies, ensuring optimal water distribution for agricultural sustainability and productivity.

Optimized Irrigation Scheduling:

Altum-PT enhances water management with thermal imagery that accentuates differences in crop canopy and soil temperatures, crucial for determining irrigation timing, frequency, and duration. This technology aids irrigation managers in making knowledgeable decisions, ensuring crop health through the precise application of water based on real-time environmental feedback.

Disease, Pest, and Nutrient Deficiency Detection:

Altum-PT’s high-resolution multispectral imaging offers enhanced visibility into plant canopy physiology. It aids in early detection of diseases, pests, and nutrient deficiencies that may not be visible in standard RGB imagery. Various multispectral indices and composite data facilitate the early identification of these issues.

Efficient Plant Phenotyping:

Altum-PT streamlines plant characteristic measurements by capturing comprehensive data in less time. Researchers gain deeper insights into how different traits respond to varying growth conditions, reducing the time and effort required for manual assessments.

Accurate Fruit Yield Estimations:

Traditional fruit yield estimation methods like manual counting and time-consuming analyses are resource-intensive. Altum-PT’s combination of high-resolution RGB, multispectral, and thermal imagery enables more precise yield predictions through algorithm-based fruit counting and temperature analysis, offering a more efficient and cost-effective approach.

Water Stress Prediction:

Canopy temperature serves as a reliable indicator of plant stress, especially related to water availability. Altum-PT’s thermal imaging allows farmers to periodically assess plant physiological status and detect subtle changes in canopy temperature, aiding in early water stress prediction and mitigation.

Micasense Altum-PT Multispectral Sensor

Specifications

Weight

460 g (16.2 oz.) Altum-PT + DLS2

Dimensions

11.0 x 8.0 x 6.9 cm (4.3 in x 3.1 in x 2.7 in)

External Power

7.0 V - 25.2 V

Power Input

5.5/7.0/10W (standby, average, peak)

Sensor Resolution

4112 x 3008 (12MP per PAN band) 2064 x 1544 (3.2MP per MS band) 320 × 256 thermal infrared

Spectral Bands

Blue 475(32), Green 560(27), Red 668(14), Red Edge 717(12), NIR 842(57)

RGB Color Output

12.4 MP (global shutter, aligned with all bands)

Thermal

FLIR LWIR thermal infrared 7.5-13.5um radiometrically calibrated

Interfaces

3 configurable GPIO: select from trigger input, PPS input, PPS output, and top of frame signals. Host virtual button. USB 2.0 port for WiFi. Serial. 10/100/1000 Ethernet. CFexpress for storage

Field of View

50° HFOV x 38° VFOV (multispectral) 46° HFOV x 35° VFOV (panchromatic) 48o x 39o (thermal)

FAQs for Micasense Altum-PT Multispectral Sensor

  1. What spectral bands does the Altum-PT capture?
    • Altum-PT captures imagery in six spectral bands: blue, green, red, red edge, near-infrared (NIR), and thermal, providing comprehensive data for detailed analysis.
  2. How does the Altum-PT benefit precision agriculture?
    • It enables detailed monitoring of crop health, irrigation efficiency, disease detection, and stress analysis, facilitating informed decision-making for optimized agricultural practices.
  3. Can the Altum-PT integrate with any drone model?
    • While designed for easy integration with many UAV systems, it’s specifically compatible with DJI’s M300 RTK drones via the Altum-PT SkyPort, alongside open API support for broader adaptability.
  4. What is the image resolution of the Altum-PT?
    • The Altum-PT offers high-resolution multispectral imagery, with the thermal band providing twice the ground resolution compared to previous models, enhancing the detail and usability of the data.
  5. How does Altum-PT’s thermal imaging support irrigation management?
    • By identifying temperature variances indicative of moisture levels, it helps in detecting irrigation inefficiencies, guiding precise water distribution for optimal crop hydration.
  6. What makes the Altum-PT suitable for machine learning applications?
    • Its high-resolution panchromatic and multispectral imagery is ideal for developing and training machine learning algorithms for applications such as crop counting and health assessment.
  7. How does the global shutter feature of the Altum-PT improve image quality?
    • The global shutter captures distortion-free images, essential for accurate mapping and analysis, especially in fast-moving UAV applications.
  8. What are the storage capabilities and capture rates of the Altum-PT?
    • The Altum-PT features an all-new storage device enabling data capture rates of up to 2 frames per second, facilitating efficient large-scale data collection.
  9. Can the Altum-PT detect plant diseases and nutrient deficiencies?
    • Yes, its multispectral imaging capabilities allow for early detection of diseases and nutrient deficiencies by analyzing plant physiology and stress indicators.
  10. How does the Altum-PT aid in water stress prediction and management?
    • Its thermal camera can detect subtle changes in canopy temperature, serving as an early indicator of water stress, enabling timely adjustments to irrigation practices for stress mitigation.

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