AI tool comparison
RuView vs Tiny Aya
Which one should you ship with? Here is the side-by-side panel verdict, pricing read, reviewer split, and community vote comparison.
Edge AI
RuView
3D human pose estimation from WiFi signals — no camera required
75%
Panel ship
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Community
Free
Entry
RuView is an open-source platform that performs real-time 3D human pose estimation, vital sign monitoring, and presence detection using nothing but cheap WiFi signals from $9 ESP32 microcontrollers. No cameras, no video, no cloud subscription required. The system tracks 17 COCO body keypoints and measures heart rate and breathing by analyzing how bodies disrupt WiFi Channel State Information (CSI) — the same physics used in research labs, now running on a microcontroller you can buy in bulk for single-digit dollars. The architecture fuses WiFi CSI with optional depth and mmWave radar data into a real-time 3D spatial model. On-device spiking neural networks adapt to a new room's RF geometry in under 30 seconds. Total hardware cost for a full room setup: around $140. The software stack is written in Rust with pre-trained models on Hugging Face and an active Python binding layer for downstream ML pipelines. The privacy implications are significant — and cut both ways. RuView can monitor a care home resident's breathing without a camera in their bedroom, or let a smart home detect when all occupants have left. The open-source release makes the technology accessible to indie builders for the first time, but also means the underlying sensing capability is now commodity.
Open Source Models
Tiny Aya
3B-parameter open model supporting 70+ languages — runs offline on a phone
75%
Panel ship
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Community
Paid
Entry
Tiny Aya is a family of open-weight small language models from Cohere Labs designed to bring multilingual AI to devices that can't access cloud inference. The 3.35B parameter models cover 70+ languages including many lower-resourced ones — African languages, South Asian languages, and Asia-Pacific languages that larger multilingual models either skip or handle poorly. The family includes five variants: a base pretrained model, a globally balanced instruction-tuned version (Global), and three region-specific models — Earth (Africa/West Asia), Fire (South Asia), and Water (Asia-Pacific/Europe). The region-specific models are tuned on data distributions that reflect the linguistic needs of each geography, rather than averaging across all languages and underserving everyone. On the leaderboard for Product Hunt's April 5th, Tiny Aya landed in the top three despite being a research release rather than a commercial product. The models run on Ollama, are available on HuggingFace and Kaggle, and were trained on 64 H100 GPUs — a comparatively modest run for this level of multilingual coverage.
Reviewer scorecard
“The Rust implementation is solid and the Python bindings make integration into existing ML pipelines painless. Spiking nets that calibrate in 30 seconds per room is a genuinely impressive engineering achievement. If you're building any kind of ambient intelligence or smart space product, this is the starting point.”
“Ollama support means this is running locally in ten minutes. The region-specific variants are a smart design choice — a model tuned for South Asian languages will outperform a globally averaged model on those languages even at smaller parameter counts. This is the right architecture for the problem.”
“WiFi CSI sensing is highly sensitive to room geometry, furniture, and even what people are wearing — repeatability across environments is a known research challenge. The $140 hardware number assumes perfect component sourcing. Real production deployments will need significant RF calibration work before the 17-keypoint claims hold up in arbitrary spaces.”
“3B parameters across 70+ languages means the average per-language capacity is thin. For high-resource languages like English, Spanish, or Mandarin, you're getting a model that's clearly behind purpose-built alternatives. The compelling use case is low-resource languages — but that's a narrow market compared to the general-purpose SLM space.”
“Camera-free sensing is the unlocking technology for ambient AI in spaces where visual surveillance is unacceptable — hospitals, elder care, locker rooms, private homes. Commoditizing this with $9 chips and open-source models is a category-defining move. Five years from now WiFi sensing will be standard in smart buildings.”
“The 5 billion people who don't speak English as a first language are the next wave of AI users — and they'll largely be on mobile, offline-capable devices. Tiny Aya is building the infrastructure for that wave. The region-specific model design suggests Cohere Labs is thinking seriously about this rather than treating multilingual support as a checkbox.”
“The interaction design possibilities are wild — imagine interfaces that respond to your posture, proximity, or even breathing rate without any wearable or visible sensor. RuView could enable ambient, invisible UI paradigms that current computer vision approaches can't touch because of privacy constraints.”
“For content creators working in non-English markets, an offline model that actually handles your language well is transformational. Offline translation and transcription with no API costs or data privacy concerns is a real workflow unlock — especially for creators in regions with unreliable connectivity.”
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