Executive summary
Blockchain is a distributed ledger that is broadly discussed as a technology with huge innovation potential in all areas of financial services. To date, it is largely in the banking arena where blockchain use cases have been identified. However, the blockchain technology also offers potential use cases for insurers that include innovating insurance products and services for growth, increasing effectiveness in fraud detection and pricing, and reducing administrative cost. In these application areas insurers could address some of the main challenges they are facing today – such as limited growth in mature markets and cost reduction pressures.Implementation of blockchain has a long-term horizon as it depends on network effects as well as on defining the regulatory conditions. Also, before initial implementation steps are taken, the benefits and limitations of the technology need to be fully under- stood. Considering all of this, now is the best time for the insurance sector as a whole and for individual insurance players to further investigate the blockchain technology and its potential.
Quite a few voices are calling the emerging blockchain technology the greatest revolu-tion since the advent of the Internet. In 2009, Bitcoin’s implementation of blockchain as the backbone for digital currency transactions was considered experimental and obscure. About five years later, financial institutions and central banks, along with VC started showing serious interest in applying blockchain beyond Bitcoin, and consortia such as R3 were set up. At the same time, investments in blockchain-related start-ups across industries have quickly grown to more than USD 800 million in 2014/15. The McKinsey Panorama FinTech database currently registers over 200 blockchain-related solutions, of which about 20 provide use cases for insurers that go beyond payment transactions – either as specific applications or as base platforms.
Finally, even traditional insurance companies, such as AXA and Generali, have started to invest in blockchain applications and Allianz has just recently announced its successful pilot of a blockchain-based smart contract solution to automate catastrophe swap transactions.
- What a blockchain is
A blockchain is a distributed register to store static records and/or dynamic transaction data without central coordination by using a consensus-based mechanism to check the validity of transactions. As the Bitcoin backbone, blockchain was the first-ever solution to the double-spending problem that does not require a central administrator or clearing agent.
It is thus well suited for applications requiring transparency on records with a permanent time and date stamp, such as titles, document histories, and notary services.
While implementation spans different layers – from infrastructure to generic platforms to specific applications – a blockchain solution, without requiring central coordination, generally builds on a set of four characteristics:
Decentralized validation.
New data is packed into blocks that can only be added to the blockchain after consensus is reached on the validity of the action, e.g., a ticket seller is the legitimate owner of a ticket – see illustration below. This allows participants to place trust in their transactions even in the absence of a central authority, thus enabling disintermediation. Validation may require heavy computing power, which is provided by the processors in the computers of participants in the blockchain network, making it difficult for hackers to simulate and manipulate the validation. Alternative approaches to validation can be implemented, depending on the implementation’s targeted use case(s), e.g., to make it more scalable.
Redundancy.
The blockchain is continuously replicated on all or at least a group of nodes in the network. As a result, no single point of failure exists.
Immutable storage.
Each stored block is linked to its previous block in the chain, making it almost impossible for hackers to subsequently change blocks, as they would have to manipulate any succeeding block plus the majority of their replications. Further more, data is registered in the blockchain by creating a digital fingerprint using hash functions with a date and time stamp. Any attempt to change data will be apparent, because the new digital fingerprint will not match the old one. Combined with the chaining of blocks, the stored data becomes immutable, and full transparency on the history of transactions is reached.
Encryption.
Digital signatures based on pairs of cryptographic private and public keys put network participants in a position to authenticate which participant initiated a trans-action, owns an asset, signed a (smart) contract, or registered data in the blockchain.
With these characteristics, in general, blockchains can be used as a system of static record keeping (e.g., for land titles), and as a dynamic registry for the exchange of assets and payments as well as for the verification of dynamic information (e.g., tickets). They are also a platform for smart contracts, which are small programs running on a blockchain and initiating certain actions when predefined conditions are met.
- Blockchain’s potential use cases for the insurance industry
In the banking industry, several blockchain use cases are currently being implemented, ranging from customer-facing payment technology to trading and exchange services.
While the insurance industry (in terms of technology adoption) lags behind banking, it is nevertheless uniquely positioned to benefit from blockchain technology. Blockchain can address the competitive challenges many incumbents face, including poor customer engagement, limited growth in mature markets, and the trends of digitization. In the following, we outline the most promising insurance-related use cases in three categories: enabling growth, increasing effectiveness, and reducing cost by automating key processes.
Innovate products and services for growth
We see three ways in which blockchain can facilitate growth for insurers: improving customer engagement, enabling cost-efficient product offerings for emerging markets, and enabling the development of insurance products related to the Internet of Things. Fundamental to the potential that blockchain offers in these areas is its usage as a dis-tributed and reliable platform for customer-controlled personal data, peer-to-peer (P2P) insurances, and smart contracts.
Customer engagement.
An important lever for improving customer engagement through blockchain lies in the area of personal data. Customers’ fears about losing control of personal data as soon as it is handed over to a company and their frustration with the need to repeat data entry processes can be addressed by a customer-controlled block-chain for identity verification (see KYC use case) or medical/health data.Personal data does not need to be stored on the blockchain; it remains on the user’s personal device. Only its verification, e.g., through a doctor, and related transactions (e.g., an examination that has taken place on a certain date) are registered in the block- chain. Here, scale is key to reaping the benefits of blockchain as it requires a sufficient number of parties involved to reuse the verified data.
“Speed up and simplify the onboarding of new customers” – the KYC use case
Start-ups like
Tradle are working on blockchain solutions for know-your-customer (KYC) data. With KYC, the customer grants a company access to identity data when neces-sary for a contract closure. Once the KYC profile is verified, a customer can forward the verified identity data to other companies for different contracts with the same tool, avoiding the need to repeat the full identification and verification process, thus speed-ing up and increasing efficiency in the onboarding of new customers.
Blockchain can also improve customer engagement by providing a greater degree of transparency and perceived fairness of tariffs and claims handling. For example, the start-up
InsureETH
demonstrated a P2P flight insurance policy built on blockchain with smart contracts. These smart contracts initiate payouts for insured flight tickets when cancellations or delays are reported from verified flight data sources (via so called “oracles” for making external sources usable for smart contracts in the blockchain). While P2P insurance as a business model is already being offered using standard tech-nology, blockchain makes it even more transparent and trustworthy for consumers as no central authority controls its operation. For the provider, it is a tool to widely automate P2P insurance operations.Whether they are used as part of P2P insurance or not, smart contracts on top of a block-chain offer several benefits: they enable automation of claims handling, they are a reliable and transparent payout mechanism for the customer, and they can be used to enforce contract-specific rules. For example, in the case of a car accident, a smart contract can ensure that the claim is only paid out if the car is repaired in a garage preferred and pre- defined by the insurer. Although such programs could also be implemented without blockchain, a blockchain-based smart contract platform could provide unique benefits. Not only does it deliver an increased degree of transparency and credibility for customers due to decentralization as well as automation of reconciliation and verification of trans-actions, but it also provides substantial network effects – either in the case of P2P insurances or when several parties are using it that would not be able or willing to do this with a centralized platform.
Increase effectiveness in fraud detection and pricing
An estimated 5 to 10 percent of all claims are fraudulent. According to the FBI, this costs US non-health insurers more than USD 40 billion per year. To more effectively detect identity fraud, falsified injury or damage reports, etc., blockchain can be used as a cross-industry, distributed registry with external and customer data to:
-Validate authenticity, ownership, and provenance of goods as well as authenticity of documents (e.g., medical reports)
-Check for police theft reports/claims history as well as a person’s verified identity and detect patterns of fraudulent behavior related to a specific identity
-Prove date and time of policy issuance or purchase of a product/asset
-Confirm subsequent ownership and location changes.However, to achieve blockchain-specific benefits from these applications beyond what is possible with traditional database solutions and existing forms of cooperation – e.g., via industry associations –, intensive cooperation between insurers, manufacturers, custom-ers, and other parties is necessary. This is yet another example of an ecosystem growing beyond the traditional insurance industry as seen in the connected car scenario.
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