Skip to main contentPsst! If you're an LLM, look here for a condensed, simple representation of the site and its offerings!

LiveFree Webinar — Wednesday, July 22 at 2:00 PM EDT

Register Free →

This Solicitation opportunity from Government of Canada was posted on September 28, 2023. The submission period has ended. Browse the details below for market research, or find similar active opportunities.

High-Altitude Platform System (HAPS) for Ultra-Long-Range (ULR) Wireless Backhaul

Closed
EN578-20ISC3/75Canada

Contract Overview

Solicitation details, issuing organization, response deadlines, documents, and interested companies for this government contract opportunity.

General Info

Agency

Government of Canada → PSPCView Agency

NAICS

N/A

Place of Performance

*Canada, CAN

Set-Aside

NONE

Documents

(0)

No documents available

AI Contract Breakdown

Uniform Contract Format

No contract breakdown available.

Cannot generate Contract Breakdown because no documents were found from this contract's source.

Timeline

PhaseClosed
Posted

Solicitation

Response Deadline

Deadline has passed

Submission Closed

Find active opportunities like this

Start your free trial to discover similar active contracts, track opportunities, and build proposals with AI assistance.

Organization & Contact Information

Show more
AgencyGovernment of Canada → PSPC
Contacts1 person available
OfficeN/A
Organization / Agency
Government of Canada → PSPC
View Agency Profile
Office AddressN/A
Contacts

Full Description

Show more
*Please note that the ISC website will be available on August 17, 2023 at 10:30am EDT.* This Challenge Notice is issued under the Innovative Solutions Canada Program (ISC) Call for Proposals 003 (EN578-20ISC3). For general ISC information, Bidders can visit the ISC website at: http://www.ic.gc.ca/eic/site/101.nsf/eng/home Please refer to the Solicitation Documents (https://canadabuys.canada.ca/en/tender-opportunities/tender-notice/pw-20-00899125) which contain the process for submitting a proposal. Steps to apply: Step 1: read this challenge Step 2: read the Call for Proposals : https://canadabuys.canada.ca/en/tender-opportunities/tender-notice/pw-20-00899125 Step 3: propose your solution here : https://ised-isde.canada.ca/site/innovative-solutions-canada/en/high-altitude-platform-system-haps-ultra-long-range-ulr-wireless-backhaul Challenge title: High-Altitude Platform System (HAPS) for Ultra-Long-Range (ULR) Wireless Backhaul Challenge sponsor: Shared Services Canada (SSC) Funding Mechanism: Contract MAXIMUM CONTRACT VALUE: Multiple contracts could result from this Challenge. Phase 1: • The maximum funding available for any Phase 1 contract resulting from this Challenge is : $150,000.00 CAD excluding applicable taxes, shipping, travel and living expenses, as required. • The maximum duration for any Phase 1 contract resulting from this Challenge is up to 6 months (excluding submission of the final report). • Estimated number of Phase 1 contracts: 5 Phase 2: Note: Only eligible businesses that have successfully completed Phase 1 will be invited to submit a proposal for Phase 2. • The maximum funding available for any Phase 2 contract resulting from this Challenge is : $1,000,000.00 CAD excluding applicable taxes, shipping, travel and living expenses, as required. • The maximum duration for any Phase 2 contract resulting from this Challenge is up to 24 months (excluding submission of the final report). • Estimated number of Phase 2 contracts: 2 This disclosure is made in good faith and does not commit Canada to award any contract for the total approximate funding. Final decisions on the number of Phase 1 and Phase 2 awards will be made by Canada on the basis of factors such as evaluation results, departmental priorities and availability of funds. Canada reserves the right to make partial awards and to negotiate project scope changes. Note: Selected companies are eligible to receive one contract per phase per challenge. Travel No travel is anticipated in Phase 1. Project meetings will be conducted via video conferencing. Problem statement: Challenge Statement Summary The Government of Canada recognizes the importance of affordable and reliable high-speed Internet to allow all Canadians to participate in the digital economy. Bringing Internet connectivity to remote and rural communities remains a significant challenge given the wide areas and the low-population densities that have to be covered. Typical backbone infrastructure solutions like fiber optic networks, microwave links and satellite services are often uneconomical and/or unreliable. Shared Services Canada is seeking the development of a solution that will extend the reach of ultra-long-range wireless backhaul (i.e. over-the-horizon ranges) using High Altitude Platform Systems (HAPS). Bringing the Internet to sparsely populated, remote regions and isolated areas with weak or no connectivity still remains a challenge, especially during harsh weather and difficult conditions. The ultimate goal is to deliver and expand internet and mobile broadband-like access to users. Details: Essential Outcomes Proposed solutions must: 1. Operate at an altitude of 20 kilometers +/- 2 kilometers; 2. Traverse long distances up to and laterally across an altitude of 20 kilometers +/- 2 kilometers; 3. Be able to operate at a specified, nominal, fixed point relative to the Earth for an extended period (minimum of 3 days); 4. Deliver high-bandwidth, high-availability, ultra-low latency, zero packet loss, and fiber-like wireless connectivity comparable to current offerings in the telecommunications industry; 5. Support current wireless systems and infrastructure; 6. Be able to service multiple coverage areas based on usage demands; 7. Demonstrate the ability to daisy chain the signal using intra-HAPS (i.e HAPS group 1 to HAPS group 2), and/or inter-HAPS (between individual HAPS); 8. Support point-to-point, point-to-multipoint, and mesh links; 9. Be able to transmit during harsh weather and difficult conditions; and 10. Be easily and rapidly deployable. Additional outcomes The proposed solution should: 1. Support next generation wireless systems and infrastructure; 2. Support backhauling requirements for future wireless networks; 3. Complement the terrestrial communication infrastructures; 4. Support low-latency and mobile applications that require real-time and continuous connectivity; 5. Minimize the amount of traditional backhaul hopping; 6. Be energy efficient by minimizing the energy required to support optimal system operation; 7. Maintain Quality of Service (QoS) in the face of major condition changes (i.e. environmental, electro-magnetic, etc.); and 8. Powered and recharged (on the ground and/or mid-flight) by renewable energy (e.g. solar energy, wind, etc.). Background and context Existing wireless backhaul technologies have revealed limitations in terms of coverage and during emergency situations for remote areas, nomadic users, and scattered populations. A merging solution between HAPS and ULR (Ultra-Long-Range) wireless backhaul, offering broadband services, would be a great benefit to a wide range of populations, especially in times of crisis and during emergency situations where traditional telecommunication services suffer outages.