For partnerships and institutional enquiries, contact: contact@aranyacarbon.com
Our Technology
AranyaCarbon builds digital systems that embed integrity, spatial accuracy, and repeatability directly into forest-linked carbon initiatives. Our technology is designed to address the fundamental challenge in forest carbon markets: credible, ground-verifiable data collected consistently over time.
Built on a granted Augmented Reality patent with a patent-pending positional accuracy extension designed for long-term forest monitoring.
Our Intellectual Property Foundation
Granted Patent - Augmented Reality Based Environmental Data Capture
AranyaCarbon holds a granted patent covering the use of Augmented Reality (AR) to capture, visualise, and interact with environmental and forest data directly within physical landscapes. This patent establishes how forest data is gathered on the ground, in real spatial context, rather than inferred from remote or sample-based methods.
The granted AR patent defines:
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How environmental data is captured at source
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How it is visualised and validated in real-world space
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How users interact with forest data directly in situ
This forms the foundational layer of AranyaCarbon’s integrity-first approach.
AranyaCarbon’s granted AR foundation defines how forest data is captured, while the patent-pending ARTP framework ensures spatial accuracy and repeatability over time.
Patent Pending Extension - Positional Accuracy for Augmented Reality Tree Plates (ARTP)
Accurate data capture alone is insufficient for long-term forest monitoring unless that data can be reliably revisited and compared over time.
As an extension of its AR foundation, AranyaCarbon has developed a positional accuracy framework for ARTP. This framework ensures that forest data remains spatially consistent, repeatable, and aligned across monitoring cycles.
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The ARTP framework, implemented through a Digital Twin–based architecture, is currently patent pending and is designed to:
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Anchor data to consistent spatial references
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Reduce positional drift across time
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Enable reliable re-identification of forest assets
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This positional framework does not replace the granted AR patent; it strengthens and operationalises it for long-duration monitoring and verification.
Why Positional Accuracy Matters
In forest carbon monitoring, how data is gathered and where that data is anchored are inseparable.
Without positional accuracy:
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Tree-level data cannot be reliably revisited
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Monitoring becomes fragmented
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Comparability across years is weakened
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Auditability and credibility suffer
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By embedding positional accuracy directly into the AR-based data capture process, AranyaCarbon ensures that forest data is not only accurate at the moment of capture, but dependable over time.
Physical Forest
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AR Capture (granted)
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Positional Accuracy (pending)
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Integrity-First MRV
Core Technology Principles
AranyaCarbon’s technology is designed around the following principles:
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Ground-verifiable
Data is captured and validated in physical forest environments, not inferred remotely. -
Spatially anchored
Environmental data is tied to consistent positional references. -
Repeatable over time
Monitoring cycles are comparable across years. -
Tree-level, not plot-based
Avoids over-generalisation and extrapolation. -
Audit-ready by design
Data structures support transparent review and verification.
Technology Flow
Physical Forest Environment
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Augmented Reality–Based Data Capture (Granted Patent)
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ARTP Positional Accuracy Layer / Digital Twin (Patent Pending)
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Integrity-First Digital Monitoring, Reporting, and Verification (DMRV)
Outcomes Enabled by the Technology
By combining ground-level data capture with positional accuracy and repeatability, AranyaCarbon’s technology enables:
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Reduced integrity and over-crediting risk
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Stronger permanence and monitoring claims
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Higher confidence for buyers and institutions
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More credible forest-linked carbon outcomes
These outcomes directly support improved valuation and trust in forest-based climate initiatives.
From Technology to Deployment
This technology framework forms the foundation for AranyaCarbon’s broader integrity-first Digital MRV systems, which are deployed through structured engagements aligned with long-term forest conservation and climate objectives.
What this means
This technology transforms forest carbon data from estimates to evidence.