Good afternoon, everyone. Thank you for the opportunity to present at this committee.
My name is Richard Kolacz. I am the founder and CEO of GSTS, which is a maritime artificial intelligence company that relies on data from various space assets to develop solutions that support global maritime risk and threat assessment, as well as the optimization of the global supply chain.
Our goal is to become the Nav Canada of the oceans, ensuring maritime safety, security and supply chain resilience for Canada and the world, since 90% of the world trade moves by ship.
My primary activity in space was leading a team that developed the world's first dedicated global maritime monitoring satellite network, which was designed and built in Canada in response to U.S. national security presidential directive 41. This directive, issued after 9/11, was to develop an unclassified system to monitor all the ships in the world all the time, to detect risks and threats from sea.
Upon being invited to the committee, the first question I asked myself was, what is the committee looking for?
As you know, the study mandate issues are as follows.
Number one is to identify the current state of Canadian defence capabilities and programs. As I have been out of uniform for a while, it was clear to me that these could best be detailed by members of the Canadian Forces.
Number two is to identify the international agreements and partnerships related to space defence. Again, this is a question best answered by those in government negotiating said agreements.
Number three is to identify the impact of advancements in space on Canada's sovereignty and national security. This is a question to which I felt I could contribute. Here are my views on the third point.
The assets in space are indispensable to our national security, commerce and sovereignty, and our reliance on them will continue to grow. Space assets are used from coast to coast to coast to support communications and manage resources. Satellites are used to monitor the weather and the environment and to detect threats. GPS signals are used for all financial transport and location services.
New developments in space technology, reducing costs and increasing capability mean that there will be many more commercial assets in space, providing much more capability that Canada will definitely use for commercial, civil and defence applications.
Space is critical for Canada's economy, sovereignty and security. My comments will focus on the protection of these and upcoming assets.
What form should this protection take?
Defence against physical harm or destruction of space assets is one element. If such an event were to occur, we are likely escalating to a very bad situation very quickly, and there will be many issues to address.
The other defence to consider is a defence against non-physical interference in the data from satellites or the control of the satellites themselves—cyber and data manipulation attacks. These attacks are ongoing all the time. We see the impacts across multiple sectors in Canada.
To me, the occurrence of this type of activity, which is ongoing today, is much more probable than the act of intentional physical damage. The damage from these events can be as severe as physical asset destruction and would have a major impact on our economy and sovereignty.
My inclination would be to focus on protection solutions to deal with these issues.
How should one do this?
This can be completed through improved satellite data encryption solutions, such as quantum key encryption, which is being developed in Canada today. Asset protection can also be supported through the use of AI signal and data monitoring to determine if attacks are under way, indicating that alternate systems should be used or flagging the data as compromised. At GSTS, we do this to detect vessel pattern of life anomalies, which indicate a risk or threat.
Space defence is a multi-layered, complex activity. It needs to cover a range of threats, from physical destruction to the much more subtle disinformation and deception tactics. It is not possible to cover all aspects by oneself.
Canada frequently does well by focusing on a specific capability, developing a niche expertise and offering that to our allies as part of a comprehensive, multi-layered space defence system shared amongst all. AI-based analysis of satellite-generated anomalies is a low-cost, high-value capability that Canada could offer as a meaningful contribution to a collaborative space defence network.
Thank you.
