Robot model
ASYSTR
Systemantics is an Indian robotics company based in Bengaluru that designs and manufactures the ASYSTR series of 6-axis collaborative robot arms for industrial…
- Manufacturer
- Systemantics
- Form factor
- cobot
- Lifecycle
- active
Verified profile
1
Sources on record
0
Tracked changes
Updated recently
Last verified change
Overview
Systemantics is an Indian robotics company based in Bengaluru that designs and manufactures the ASYSTR series of 6-axis collaborative robot arms for industrial automation. The robots are produced domestically in India and target machine tending, palletizing, and inspection applications. The company positions the ASYSTR as a locally made alternative to imported cobots for the Indian manufacturing market.
Verified vs. claimed
- Verified deployments
- None on file
- Sources on file
- 1 source, view all
Safety record
No incidents on record for ASYSTR.
Only active incidents are counted. Retracted incidents are excluded from this summary but remain reachable at their canonical URLs.
Sources (1)
- ASYSTR Collaborative Robot Arms — Systemantics · https://www.systemantics.net/robots/
Common questions
- What is ASYSTR?
- Systemantics is an Indian robotics company based in Bengaluru that designs and manufactures the ASYSTR series of 6-axis collaborative robot arms for industrial automation. The robots are produced domestically in India and target machine tending, palletizing, and inspection applications. The company positions the ASYSTR as a locally made alternative to imported cobots for the Indian manufacturing market.
- Who makes ASYSTR?
- ASYSTR is made by Systemantics, based in Bengaluru, India.
- Where is ASYSTR deployed?
- No verified deployments of ASYSTR are currently on the DEPLOY registry. DEPLOY records deployments only when verified at a named site with a primary source; absence may reflect pre-deployment, research, or manufacturer-internal use.
- Is ASYSTR safe?
- ASYSTR has no incidents on record in the DEPLOY registry. This does not constitute a safety guarantee; it reflects the incidents DEPLOY has tracked and verified to date.
Methodology: Verified · 1 source (no primary) · last reviewed 2026-06-28
Verification posture
Verified
Low confidence
Review state
Stable
Last reviewed 2026-06-28
Maturity + lifecycle
Lifecycle: active
Architectural position
Cohort: cobot
Sources by quality tier
- 1
- unclassified
- Unclassified source
The framework is documented at /methodology. Corrections at /corrections. Reviewer: DEPLOY editorial team.
Methodology surface for ASYSTR.Machine-readable surfaces
- Markdown mirror: /models/systemantics-india-asystr.md
- JSON-LD: embedded in this page’s head
- REST API: /v1/models/2466b651-1146-4ccc-a218-50ff3012e1e3
- Revision history: /models/systemantics-india-asystr/history
- Data documentation: /data
- Query this programmatically: Deploy MCP
Video
We are an Industrial Robots Maker based out of Bangalore, India. With a mission to drive widespread adoption of flexible automation globally, Systemantics provi
Simplified & intuitive user interface Teach and control the ASYSTR series collaborative robots with a graphical interface and a familiar Android tablet experien
The screwdriver system can be widely used for screw fastening, it fits M1.4~M6.0 screws. Collaborate with other robot machines can accomplish full-automatic ass
Soldering is a process in which two or more items (usually metal) are joined together by melting and putting a filler metal (solder) into the joint, the filler
Screw fastening is a common application in consumer and industrial electronics. Most often it is very stagnant and tedious for human operators to perform. Our f
DEPLOY Intelligence Score
21.8/ 100
6-month trend
Analysis
Thin deployment record; scale validation still in progress.
Signal flags
Dimension breakdown
Safety Record
Adoption Spread
Market Presence
IP Activity
Deployment Scale
DEPLOY Intelligence scores are computed from verified registry data: confirmed deployments, disclosed funding rounds, regulatory filings, active job listings, video viewership, and press coverage. Confidence ratings reflect data availability. Scores update nightly.
Last computed: Jul 3, 2026
Intelligence layer