Carpe OccasioTechnology Systems (COTS)

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Carpe OccasioTechnology Systems (COTS)

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Robotics Systems for First Responders developing a robotic platform that can ... Reducing robotics and unmanned system development costs ... – PowerPoint PPT presentation

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Title: Carpe OccasioTechnology Systems (COTS)

1

Carpe OccasioTechnology Systems (COTS)
Unmanned and Robotics Systems Interoperability

A Woman-Owned Small Business
Carpe Occasio Technology Systems
Seize the Moment!
2
Bottom Line Up FrontNext-Gen SOA

Hybrid Engine provides end-to-end solution
Complementary Technology for Real-Time and
Non-Real-Time (e.g. Web environment)
Extremely high performance
Ideal for situations requiring minimal latency
and synchronization of activity/function
Developed automatic code generation for
operational environments
Allows systems to be brought online in days
Quickly integrate systems of different types
Both legacy and new systems

3
Unmanned and Robotics System Interoperability

Intra-system component level interoperability
issues (to enable interchangeable parts within an
unmanned system)
Inter-system interoperability between different
unmanned or robotic systems, which are required
for such systems to cooperate and perform complex
missions in the battlespace, or disaster space
Interaction with manned systems unmanned and
robotics systems must interoperate with a wide
variety of manned platforms, weapons systems, and
C4ISR systems
Interaction with personnel on scene whether
first responders in a civil emergency, troops
operating/working in theater or combat, etc., and
in a wide variety of situations such as
logistical support, casualty evacuation,
manned/unmanned combined arms operations, etc.

4
Sample Problems

Robotics Systems for First Responders
developing a robotic platform that can complete
different missions, and have different
interchangeable functional components such as
an arm for explosive ordinance disposal, or an
arm that can open door handles and locks
Protection and Physical Security UV Sentry
fleet force protection using unmanned systems (or
an unmanned road-side check-point that can
visually and chemically examine a vehicle,
identify faces, etc.)
Battlefield Extraction of the Wounded for
example the Nightingale II concept, which uses
unmanned and robotics systems to perform this
task

5
Nightingale II Concept of Operations
C2
No Fly Zone
C
Autonomous collision obstacle avoidance
Autonomous Clear-Zone landing
D

Call for MedEvac received at Nightingale Control
Best UAV is chosen automatically
Route is autonomously planned uploaded
UAV is launched automatically

No Fly Zone
B
UGVBEAR deploys
UAS/UGV/BEAR system rejoins and goes to
destination
A
BEAR recovers Medic treats
BEAR deploys
Autonomous transit from starting point, to
pick-up point, to medical unit
Similar process for Logistics, Combat Rescue,
Special Ops
6
Real-Time Infrastructure Decomposition
CASE Tool Environment
User Defined IT System Interface
User Defined Hardware Interface
Web Services API (JNI, SOAP, OWL, etc.)
Composability Automation
Component Repository
Intelligent Application Services
Knowledge Representation
Integration
Meta-Data
Data Translation
System Execution Services
Distributed Object Mgmt
Std App Dev Interface
Synchronization Management
Event Management Services
Common Application Services
Security
State Saving
Core Programming
Compression
Encryption
Communication Services (Unicast, Multicast,
Broadcast)
Shared Memory
IP
JTRS
Reflective Memory
BLOS
Link-16
Others
7
Configurable Computational MeshPolymorphic
Computing Architecture (PCA)
FE Functional Element
8
Unmanned and Robotics System Interoperability
Challenges