Secure ADS-B protection scheme supporting query

Automatic dependent surveillance-broadcast (ADS- B) records provide an important basis and evidence for future route planning and accountability. However, due to the lack of effective support for the integrity and confidentiality of ADS-B, the air traffic control (ATC) system based on ADS-B faces serious security threats. Once the data is tampered with, it will cause immeasurable losses to society. The ADS-B data is arranged in chronological order, and the order-preserving encryption method allows users to directly search for ciphertexts by time. However, encryption alone does not guarantee the integrity of the data. The attacker can still destroy the integrity of the data by modifying the ciphertext. This paper proposes a secure ADS- B protection scheme that supports queries. We construct a dynamic order-preserving encryption (DOPE) scheme to achieve data confidentiality and sequential search of target data in the ciphertext. In addition, the scheme achieves fast integrity checking by calculating the unique verification label of the entire ciphertext, and supports blockless verification, which means that all data does not need to be transmitted during the audit phase. In the meanwhile, the auditor can verify the integrity of multiple ADS-B documents at once, which improves the computational efficiency of the audit. We analyze the integrity and security of the scheme and proved that DOPE is indistinguishable under an ordered chosen-plaintext attack (IND-OCPA). Furthermore, we conclude through performance analysis that the communication overhead is constant and computation overhead is logarithmic level. The proposed scheme is applicable to all data arranged in order, such as hospital records arranged by date and so on. At the same time, ADS-B can be used for urban vehicle monitoring and is a basic means to realize smart transportation.