What is CAGE Code 5H5Y5?

5H5Y5 is the unique identifier used by NATO Organizations to reference the physical entity known as Other Lab, Inc. Dba Other Lab Inc located at 3101 20Th St, San Francisco CA 94110-2714, United States.

Who is CAGE Code 5H5Y5?

5H5Y5 refers to Other Lab, Inc. Dba Other Lab Inc located at 3101 20Th St, San Francisco CA 94110-2714, United States.

Where is CAGE Code 5H5Y5 Located?

CAGE Code 5H5Y5 is located in San Francisco, CA, USA.

Other Lab, Inc.
Dba Other Lab Inc

CAGE Code: 5H5Y5

NCAGE Code: 5H5Y5

Status: Active

Type: Commercial Supplier

Dun & Bradstreet (DUNS): 830681800

CAGE 5H5Y5 Other Lab, Inc.

Summary

Other Lab, Inc., Dba Other Lab Inc is an Active Commercial Supplier with the Cage Code 5H5Y5 and is tracked by Dun & Bradstreet under DUNS Number 830681800..

Address

3101 20Th St
San Francisco CA 94110-2714
United States

Points of Contact

http://www.otherlab.com/

Related Information

DUNS Report

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Frequently Asked Questions (FAQ) for CAGE 5H5Y5

What is CAGE Code 5H5Y5?: 5H5Y5 is the unique identifier used by NATO Organizations to reference the physical entity known as Other Lab, Inc. Dba Other Lab Inc located at 3101 20Th St, San Francisco CA 94110-2714, United States.
Who is CAGE Code 5H5Y5?: 5H5Y5 refers to Other Lab, Inc. Dba Other Lab Inc located at 3101 20Th St, San Francisco CA 94110-2714, United States.
Where is CAGE Code 5H5Y5 Located?: CAGE Code 5H5Y5 is located in San Francisco, CA, USA.

Contracting History for CAGE 5H5Y5 Most Recent 25 Records

80NSSC19C0637
Soft Robotic Manipulators With Enhanced Perception Using Multimodal Sensory Skins
27 Jul 2020: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $709,003.00
80NSSC19C0637
Soft Robotic Manipulators With Enhanced.Perception Using Multimodal Sensory Skins
8 Dec 2021: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $709,003.00
80NSSC19C0637
Soft Robotic Manipulators With Enhanced Perception Using Multimodal Sensory Skins
27 Sep 2019: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $709,003.00
80NSSC19C0637
Soft Robotic Manipulators With Enhanced Perception Using Multimodal Sensory Skins
21 Aug 2020: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $709,003.00
80NSSC19C0637
Eo14042 Soft Robotic Manipulators With Enhanced Perception Using Multimodal Sensory Skins
13 Oct 2021: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $709,003.00
80NSSC19C0637
Soft Robotic Manipulators With Enhanced Perception Using Multimodal Sensory Skins
12 Jan 2021: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $709,003.00
80NSSC19C0637
Soft Robotic Manipulators With Enhanced Perception Using Multimodal Sensory Skins
9 Dec 2020: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $709,003.00
80NSSC17C0030
We Propose That The Key To Robotic Automation In Unstructured Environments Is Compliant Robotic Manipulators That Can Tolerate, Sense, And Leverage Contact In A Feedback Loop. We Have Demonstrated Proof Of Concept Of An Instrumented End-Effector Capable Of Enhanced Perception Through Observed And Controlled Contact In Phase I. We Will Now Expand The Project To Develop Highly Capable State And Contact Sensing Capability. This Approach Requires: (I) A Network Of Sensors Capable Of Capturing The Highly Compliant State Of The Soft Robot And High Resolution Tactile Sensors For Multi-Point Contact, (Ii) Integrating These Sensors With A Core Embedded System Capable Of Processing Large Arrays Of Sensor Data And (Iii) Development Of Algorithms That Can Extract State/Tactile Information To Serve As High Frequency Feedback To The Control System. The Goal Of This Sttr Is To Transfer The Promising Technology Of Elastomeric Sensors From The Yale Faboratory's Research Setting Into A Commercial Product. These Sensors Present A Solution To The Remaining Piece Of The Puzzle Of How To Manage And Leverage The Additional Degrees Of Freedom Of Pneubotics' Compliant Systems. Towards This Goal, Otherlab Will Serve As The Commercial Expert With A Deployable Platform. We Will Provide Electronic System Design, Control System Design, And Robotic System Integration As Well As Insight Into Integration Challenges And Cost Constraints. The Faboratory Will Serve As The Experts On Liquid-Embedded Elastomeric Sensors, Optimizing The Design And Fabrication Methods To Serve The Commercial Applications. The Full System Demonstrations Proposed In This Phase Ii Are Feasible Because We Will Exploit The Pneubotics' Manipulators And Gripper Designs That Otherlab Has Developed Through Government Grants (Nasa, Darpa), Commercial Partners, And Private Funding.
5 Jul 2018: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $749,900.00
80NSSC17C0030
We Propose That The Key To Robotic Automation In Unstructured Environments Is Compliant Robotic Manipulators That Can Tolerate, Sense, And Leverage Contact In A Feedback Loop. We Have Demonstrated Proof Of Concept Of An Instrumented End-Effector Capable Of Enhanced Perception Through Observed And Controlled Contact In Phase I. We Will Now Expand The Project To Develop Highly Capable State And Contact Sensing Capability. This Approach Requires: (I) A Network Of Sensors Capable Of Capturing The Highly Compliant State Of The Soft Robot And High Resolution Tactile Sensors For Multi-Point Contact, (Ii) Integrating These Sensors With A Core Embedded System Capable Of Processing Large Arrays Of Sensor Data And (Iii) Development Of Algorithms That Can Extract State/Tactile Information To Serve As High Frequency Feedback To The Control System. The Goal Of This Sttr Is To Transfer The Promising Technology Of Elastomeric Sensors From The Yale Faboratory's Research Setting Into A Commercial Product. These Sensors Present A Solution To The Remaining Piece Of The Puzzle Of How To Manage And Leverage The Additional Degrees Of Freedom Of Pneubotics' Compliant Systems. Towards This Goal, Otherlab Will Serve As The Commercial Expert With A Deployable Platform. We Will Provide Electronic System Design, Control System Design, And Robotic System Integration As Well As Insight Into Integration Challenges And Cost Constraints. The Faboratory Will Serve As The Experts On Liquid-Embedded Elastomeric Sensors, Optimizing The Design And Fabrication Methods To Serve The Commercial Applications. The Full System Demonstrations Proposed In This Phase Ii Are Feasible Because We Will Exploit The Pneubotics' Manipulators And Gripper Designs That Otherlab Has Developed Through Government Grants (Nasa, Darpa), Commercial Partners, And Private Funding.
5 Jul 2018: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $749,900.00
80NSSC17C0030
We Propose That The Key To Robotic Automation In Unstructured Environments Is Compliant Robotic Manipulators That Can Tolerate, Sense, And Leverage Contact In A Feedback Loop. We Have Demonstrated Proof Of Concept Of An Instrumented End-Effector Capable Of Enhanced Perception Through Observed And Controlled Contact In Phase I. We Will Now Expand The Project To Develop Highly Capable State And Contact Sensing Capability. This Approach Requires: (I) A Network Of Sensors Capable Of Capturing The Highly Compliant State Of The Soft Robot And High Resolution Tactile Sensors For Multi-Point Contact, (Ii) Integrating These Sensors With A Core Embedded System Capable Of Processing Large Arrays Of Sensor Data And (Iii) Development Of Algorithms That Can Extract State/Tactile Information To Serve As High Frequency Feedback To The Control System. The Goal Of This Sttr Is To Transfer The Promising Technology Of Elastomeric Sensors From The Yale Faboratory's Research Setting Into A Commercial Product. These Sensors Present A Solution To The Remaining Piece Of The Puzzle Of How To Manage And Leverage The Additional Degrees Of Freedom Of Pneubotics' Compliant Systems. Towards This Goal, Otherlab Will Serve As The Commercial Expert With A Deployable Platform. We Will Provide Electronic System Design, Control System Design, And Robotic System Integration As Well As Insight Into Integration Challenges And Cost Constraints. The Faboratory Will Serve As The Experts On Liquid-Embedded Elastomeric Sensors, Optimizing The Design And Fabrication Methods To Serve The Commercial Applications. The Full System Demonstrations Proposed In This Phase Ii Are Feasible Because We Will Exploit The Pneubotics' Manipulators And Gripper Designs That Otherlab Has Developed Through Government Grants (Nasa, Darpa), Commercial Partners, And Private Funding.
29 Jun 2019: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $749,900.00
N6833517C0045
Igf::Ot::Igf
18 Mar 2019: Navair Warfare Ctr Aircraft Div Lke; Department Of Defense (Dod); $1,502,347.00
H9222216C0111
Correct Block 7 From P00003.
19 Apr 2018: Ussocom Regional Contracting Office; Department Of Defense (Dod); $1,492,397.00
N6833517C0045
Research&Development
27 Apr 2020: Navair Warfare Ctr Aircraft Div Lke; Department Of Defense (Dod); $1,993,707.00
HR001115C0143
Volumetric Parachutes Project That Will Study Four Different Designs And Then Prototype The Successful Design.
28 Sep 2021: Dcma Stockton; Department Of Defense (Dod); $1,595,520.17
80NSSC17C0030
We Propose That The Key To Robotic Automation In Unstructured Environments Is Compliant Robotic Manipulators That Can Tolerate, Sense, And Leverage Contact In A Feedback Loop. We Have Demonstrated Proof Of Concept Of An Instrumented End-Effector Capable Of Enhanced Perception Through Observed And Controlled Contact In Phase I. We Will Now Expand The Project To Develop Highly Capable State And Contact Sensing Capability. This Approach Requires: (I) A Network Of Sensors Capable Of Capturing The Highly Compliant State Of The Soft Robot And High Resolution Tactile Sensors For Multi-Point Contact, (Ii) Integrating These Sensors With A Core Embedded System Capable Of Processing Large Arrays Of Sensor Data And (Iii) Development Of Algorithms That Can Extract State/Tactile Information To Serve As High Frequency Feedback To The Control System. The Goal Of This Sttr Is To Transfer The Promising Technology Of Elastomeric Sensors From The Yale Faboratory's Research Setting Into A Commercial Product. These Sensors Present A Solution To The Remaining Piece Of The Puzzle Of How To Manage And Leverage The Additional Degrees Of Freedom Of Pneubotics' Compliant Systems. Towards This Goal, Otherlab Will Serve As The Commercial Expert With A Deployable Platform. We Will Provide Electronic System Design, Control System Design, And Robotic System Integration As Well As Insight Into Integration Challenges And Cost Constraints. The Faboratory Will Serve As The Experts On Liquid-Embedded Elastomeric Sensors, Optimizing The Design And Fabrication Methods To Serve The Commercial Applications. The Full System Demonstrations Proposed In This Phase Ii Are Feasible Because We Will Exploit The Pneubotics' Manipulators And Gripper Designs That Otherlab Has Developed Through Government Grants (Nasa, Darpa), Commercial Partners, And Private Funding.
3 Jun 2018: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $749,900.00
N6833517C0045
R&D
5 Aug 2019: Navair Warfare Ctr Aircraft Div Lke; Department Of Defense (Dod); $1,993,707.00
80NSSC17C0030
We Propose That The Key To Robotic Automation In Unstructured Environments Is Compliant Robotic Manipulators That Can Tolerate, Sense, And Leverage Contact In A Feedback Loop. We Have Demonstrated Proof Of Concept Of An Instrumented End-Effector Capable Of Enhanced Perception Through Observed And Controlled Contact In Phase I. We Will Now Expand The Project To Develop Highly Capable State And Contact Sensing Capability. This Approach Requires: (I) A Network Of Sensors Capable Of Capturing The Highly Compliant State Of The Soft Robot And High Resolution Tactile Sensors For Multi-Point Contact, (Ii) Integrating These Sensors With A Core Embedded System Capable Of Processing Large Arrays Of Sensor Data And (Iii) Development Of Algorithms That Can Extract State/Tactile Information To Serve As High Frequency Feedback To The Control System. The Goal Of This Sttr Is To Transfer The Promising Technology Of Elastomeric Sensors From The Yale Faboratory's Research Setting Into A Commercial Product. These Sensors Present A Solution To The Remaining Piece Of The Puzzle Of How To Manage And Leverage The Additional Degrees Of Freedom Of Pneubotics' Compliant Systems. Towards This Goal, Otherlab Will Serve As The Commercial Expert With A Deployable Platform. We Will Provide Electronic System Design, Control System Design, And Robotic System Integration As Well As Insight Into Integration Challenges And Cost Constraints. The Faboratory Will Serve As The Experts On Liquid-Embedded Elastomeric Sensors, Optimizing The Design And Fabrication Methods To Serve The Commercial Applications. The Full System Demonstrations Proposed In This Phase Ii Are Feasible Because We Will Exploit The Pneubotics' Manipulators And Gripper Designs That Otherlab Has Developed Through Government Grants (Nasa, Darpa), Commercial Partners, And Private Funding.
5 Feb 2019: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $749,900.00
N6833517C0045
Fully Fund Clin 0005
31 Oct 2019: Navair Warfare Ctr Aircraft Div Lke; Department Of Defense (Dod); $1,993,707.00
N6833517C0045
Igf::Ot::Igf
14 Nov 2018: Navair Warfare Ctr Aircraft Div Lke; Department Of Defense (Dod); $1,502,347.00