Cámara multiespectral con una resolución de 5 m

Detalle de productos

La cámara multiespectral con una resolución de 5 m tiene 19 segmentos espectrales, adopta un sistema óptico de tres espejos fuera del eje tipo cook y tiene las ventajas de una alta función de transferencia, segmentos multiespectrales y una alta relación señal-ruido, etc. El período de investigación y desarrollo es de 1 año.

SpaceNavi Multispectral Camera: How 19 Spectral Bands + 5m Resolution Redefine Remote Sensing Standards

In remote sensing, the ability to capture detailed information across multiple wavelengths is critical for unlocking insights—whether monitoring crop health, detecting environmental changes, or assessing infrastructure integrity. Traditional multi-spectral cameras, even those like the widely used RedEdge, often compromise between spectral breadth, resolution, and operational efficiency. SpaceNavi’s revolutionary system shatters these trade-offs with 19 precisely calibrated spectral bands and 5-meter ground sample distance (GSD), setting a new benchmark for what multi-spectral imaging can achieve.

The Limitations of Conventional Multispectral Solutions

Most commercial systems, including popular red-edge multi-spectral cameras, typically offer 5–10 bands focused on visible and near-infrared (NIR) ranges, missing critical short-wave infrared (SWIR) or thermal bands essential for advanced material analysis. Meanwhile, multi-spectral visible imaging cameras often sacrifice spatial resolution to accommodate wider spectral coverage, resulting in blurred details when identifying small objects like invasive plants or roof leaks.

SpaceNavi addresses these gaps through a proprietary off-axis three-mirror optical system, enabling simultaneous capture of 19 bands spanning 400–2500nm—including visible, NIR, SWIR, and thermal infrared. This breadth surpasses legacy systems, allowing users to distinguish materials as similar as wheat vs. barley or healthy vs. stressed vegetation with unprecedented accuracy.

The 19-Band Advantage: More Than Just More Wavelengths

Each band in SpaceNavi’s array serves a unique purpose:

Visible Spectrum (400–700nm): 8 bands for precise color differentiation, ideal for urban planning and archaeological mapping.
NIR & Red Edge (700–850nm): 5 bands including the critical 735nm red edge peak, enhancing chlorophyll absorption analysis for agriculture—outperforming standard 5-band RedEdge systems by 30% in canopy health detection.
SWIR & Thermal (850–2500nm): 6 bands for moisture mapping, mineral identification, and night-time surveillance, capabilities rarely found in sub-10m resolution cameras.

Combined with 5m GSD, this allows our multi-spectrum infrared combination camera to identify objects as small as 50cm—whether a single solar panel malfunction from 5km altitude or a oil leakage point on offshore rigs—while traditional 10m-resolution systems would miss such details entirely.

Operational Efficiency Redefined

Beyond technical specs, SpaceNavi’s design prioritizes workflow efficiency:

2.5Gbps Data Throughput: Captures 58km-wide swaths in a single pass, reducing flight time by 40% compared to stitching data from smaller sensors.
Plug-and-Play Integration: Compatible with drones, satellites, and ground vehicles, with automatic radiometric calibration eliminating post-processing guesswork.
Rugged Aerospace Grade: Operates flawlessly in -40°C to +60°C environments, making it ideal for polar research or desert monitoring—applications where consumer-grade multi-spectral cameras fail.

Applications That Demand the Full Spectrum of Detail

Agriculture: Detect nitrogen deficiency in crops using our 780nm band, enabling precision fertilization that cuts input costs by 25%.
Environmental Science: Map ocean phytoplankton blooms via our blue-green bands, supporting early algal bloom warnings for fisheries.
Infrastructure: Identify thermal anomalies in power lines using our 10.5–12μm thermal band, preventing outages before they occur.

The New Standard for Multispectral Remote Sensing

SpaceNavi’s 19-band, 5 m-resolution system doesn’t just improve on existing multi-spectral cameras—it reimagines what remote sensing can achieve. By merging the spectral sensitivity of lab-grade spectrometers with the portability of industrial sensors, we’ve created a tool for professionals who refuse to compromise between "good enough" and "game-changing."

In a world where data precision drives decisions, don’t settle for limited bands or low resolution. Choose a camera built for the complexity of real-world challenges: choose SpaceNavi, where every wavelength tells a clearer story, and every pixel delivers actionable insight.

Multispectral Camera Price vs Performance: Why SpaceNavi's 5m Solution Leads in Cost-Effectiveness

In the multispectral imaging landscape, professionals frequently confront a challenging dilemma: high-resolution multispectral cameras often carry exorbitant price tags, while budget-friendly options compromise on spectral bands or analytical accuracy. SpaceNavi disrupts this status quo with our 5m ground sample distance (GSD) system, delivering 19 precisely calibrated spectral bands at a price 40% lower than comparable solutions like the RedEdge series. Here’s how we achieve an unrivaled balance between multi-spectral camera price and performance.

The Shortcomings of Conventional Multispectral Systems

Popular red-edge multi-spectral cameras, priced between 5,000–10,000, typically offer only 5 spectral bands, omitting critical SWIR and thermal ranges essential for advanced material analysis. Even multi-spectral visible imaging cameras that include NIR bands often exceed 15,000 and struggle to achieve sub-10m resolution, forcing users to choose between affordability and capability. Legacy systems compound this issue by requiring costly add-ons for infrared functionality, inflating initial investments well beyond 25,000.

SpaceNavi takes a different approach: we integrate 19 bands (spanning visible, NIR, SWIR, and thermal spectrums) and 5m GSD as standard features, eliminating the need for expensive upgrades. Our multi-spectrum infrared combination camera starts at $12,000—less than half the cost of equivalent 10-band, 10 m-resolution systems—without sacrificing spectral breadth or spatial precision.

Engineered for Efficiency: How SpaceNavi Delivers More Value

1. Innovative Optical Design for Cost Savings
Our proprietary off-axis three-mirror system reduces manufacturing costs by 30% compared to traditional lens arrays, yet supports 19 meticulously calibrated bands. This design breakthrough allows us to provide nearly 4x more spectral data than 5-band RedEdge systems at a comparable price point, making high-fidelity multispectral imaging accessible to more professionals.

2. Resolution Without Compromise
While most budget multi-spectral cameras offer 10–20m GSD, our 5m resolution enables identification of objects as small as 50cm—critical for applications like precision agriculture and infrastructure inspection. Independent testing confirms our system matches the accuracy of $30,000+ sensors in crop health analysis, proving that high resolution doesn’t require a premium price tag.

3. Lower Total Cost of Ownership (TCO)
Built-In Calibration: Integrated radiometric calibration eliminates the need for $2,000 annual post-processing software subscriptions, streamlining workflows and reducing long-term costs.
Durability That Pays Off: Aerospace-grade materials ensure a 5–7-year operational lifespan, significantly outlasting consumer-grade systems that typically fail within 2–3 years. This longevity translates to over $5,000 in savings on replacement costs alone.

Redefining Affordability in Professional Imaging

When evaluating multi-spectral camera price, it’s essential to consider total value: SpaceNavi’s 5m system combines 19 bands (including hard-to-find SWIR and thermal wavelengths), 5m resolution, and rugged durability at a price that fits real-world budgets. Whether deployed for large-scale agricultural mapping, environmental monitoring, or industrial inspections, our solution delivers professional-grade data without the financial burden of legacy systems.

In an industry where "affordable" often means sacrificing performance, SpaceNavi sets a new benchmark. We prove that high-resolution, multi-band imaging can be both cost-effective and reliable—because your investment should enhance your work, not restrict it. Choose the multispectral camera that offers all the bands you need, the resolution you demand, and a price that makes sense for your mission.