Keeping Health Data Under Lock and Key
November 27, 2018 | Technische Universität MünchenEstimated reading time: 3 minutes
Researchers from the Collaborative Research Center CROSSING at Technische Universität Darmstadt (Germany) have developed a solution that will ensure decades of safe storage for sensitive health data in a joint project with Japanese and Canadian partners. An initial prototype was presented during a recent conference in Beijing, China. The system will go into trial operation in Japan in the coming weeks.
The introduction of an electronic patient record system has been discussed in Germany and internationally for quite some time. However, development is often thwarted by concerns regarding data security. Health data in particular – which due to the progress of modern medicine contains genome information more frequently than ever before – must be securely stored for a lifetime and or even multiple generations.
A major challenge are the technological developments that will occur over this extended time period, as these have an enormous impact on the security of existing cryptographic schemes. “All encryption methods used today will become insecure over the course of the next few years and decades”, explains Professor Johannes Buchmann, spokesperson for the Collaborative Research Center CROSSING. “The attackers’ computing power will increase and their attacks will improve. Therefore we can assume that all encrypted data will be compromised in 20 years if not sooner.”
Long-Term Confidentiality Through “Secret Sharing”
Buchmann and his team have been working to prevent this since 2015, in cooperation with Japanese research institute NICT (National Institute of Information and Communications Technology). Together they collaborate on the project “LINCOS – Long-Term Integrity and Confidentiality Protection System”. In 2017, the Japanese hospital operator Kochi Health Science Center and the Canadian company ISARA joined the project. The LINCOS system is the first to combine information theoretic confidentiality protection with renewable integrity protection. This means that no matter what computing capacity and algorithms are available in the future, noone shall be able to access or modify the protected data.
The guarantee of long-term confidentiality is achieved through a technology called “secret sharing”. The original data set is distributed among several servers in such a way that the individual parts are meaningless. Only when a sufficient number of parts – known as “shares” – are combined, the original data set of the patient file can be reconstructed. If one of the servers is compromised, the captured share is of no use to the attacker. In addition, the distribution is renewed regularly. The integrity, i.e. ensuring that data have not been changed, is achieved by quantum computer-resistant signatures. But even if the scheme utilised is classified as uncertain in the longterm, the researchers have taken precautions: The signature schemes are exchanged regularly. Integrity protection is thereby seamlessly ensured.
Sustainable Protection is Needed
The Canadian company ISARA, the industrial partner of the project, protects the data during transfer between the hospital and the server operators with quantum computer-resistant encryption. This is the third component of the LINCOS system. In the future, the researchers want to add yet another level of security that they have already realised in prototype with the Japanese team: quantum key exchange. This procedure guarantees sustainable secure keys, since it is impossible for an attacker to intercept the key exchange. The scientists at Collaborative Research Center CROSSING are even working on this research topic in their own quantum laboratory at TU Darmstadt.
“The sustainable protection of electronic health records is only one example of areas where sustainable security is urgently needed. In our digitised world, we produce an unimaginable amount of sensitive data every day, which must remain confidential and unchanged over a long period of time, for instance in the implementation of Industry 4.0 which is crucial to Germany as an industrial nation. Policymakers are called upon to ensure the guaranteed long-term protection of our data”, appeals Buchmann.
About CROSSING
More than 65 scientists from cryptography, quantum physics, system security and software engineering jointly work in the Collaborative Research Center CROSSING and perform both basic and application-oriented research. The goal is to develop security solutions that enable secure and trustworthy IT systems in the future. CROSSING is funded by the Deutsche Forschungsgemeinschaft since 2014.
Suggested Items
I-Connect007 Editor’s Choice: Five Must-Reads for the Week
05/03/2024 | Nolan Johnson, I-Connect007This week’s most important news is strategic—and telling. When one puts together the IPC industry reports, we simply have to include the recent conversation with Shawn DuBravac and Tom Kastner. On the design side, check out the latest “On The Line With…” podcast featuring Brad Griffin from Cadence Design Systems, discussing SI and PI in the realm of intelligent system design.
Industrial PC Market Size to Record $1.75 Billion Growth from 2023-2027
05/03/2024 | PRNewswireThe global industrial pc market size is estimated to grow by USD 1.75 billion from 2023 to 2027, according to Technavio. This growth is expected to occur at a Compound Annual Growth Rate (CAGR) of almost 6.29% during the forecast period.
Real Time with… IPC APEX EXPO 2024: Sigma Engineering's Recycling and Regeneration Systems for PCB Etching
05/02/2024 | Real Time with...IPC APEX EXPOEvan Howard of Schmoll America interviews Kristoffer Bjorklund, Sigma Engineering's supply chain manager. We learn about Sigma's recycling and regeneration systems for PCB industry etching and the benefits and challenges of implementing these systems in existing factories.
Boeing T-7A Red Hawk Triples Progress
05/01/2024 | BoeingThe Boeing T-7A Red Hawk achieved three recent milestones, propelling the advanced pilot trainer for the U.S. Air Force forward.
Merlin Flex invests in New Schmoll Direct Imaging System
04/30/2024 | Merlin Flex LtdMerlin Flex has fully installed and commissioned its 2nd Schmoll MDI Direct Imaging system. This new machine includes a twin bed, 4 head system which enhances Merlin Flex’s direct imaging capability for its 1.4M long flexible circuits.