Proofs of proximity are probabilistic proof systems in which the verifier only queries a sub-linear number of input bits, and soundness only means that, with high probability, the input is close to an accepting input. In their minimal form, called Merlin-Arthur proofs of proximity ( MAP ), the verifier receives, in addition to query access to the input, also free access to an explicitly given short (sub-linear) proof. A more general notion is that of an interactive proof of proximity ( IPP ), in which the verifier is allowed to interact with an all-powerful, yet untrusted, prover. MAP s and IPP s may be thought of as the NP and IP analogues of property testing, respectively
The number of rounds, or round complexity, used in an interactive protocol is a fundamental resource...
Distribution testing is an area of property testing that studies algorithms that receive few samples...
In this work, we initiate the study of proximity testing to Algebraic Geometry (AG) codes. An AG cod...
Proofs of proximity are probabilistic proof systems in which the verifier only queries a sub-linear ...
We initiate a study of non-interactive proofs of proximity. These proof systems consist of a verifie...
Interactive proofs of proximity allow a sublinear-time verifier to check that a given input is close...
Interactive proofs of proximity allow a sublinear-time verifier to check that a given input is close...
Interactive proofs of proximity (IPPs) are interactive proofs in which the verifier runs in time sub...
We show that every language in NP has a probabilistically checkable proof of proximity (i.e., proofs...
Abstract: In this paper, we describe a proof-of-concept implementation of the probabilistically chec...
The number of rounds, or round complexity, used in an interactive protocol is a fundamental resource...
The family of Reed-Solomon (RS) codes plays a prominent role in the construction of quasilinear prob...
In this paper, we describe a proof-of-concept implementation of the probabilistically checkable proo...
Probabilistic proof systems, such as probabilistically checkable proofs, interactive proofs, and zer...
Distribution testing is an area of property testing that studies algorithms that receive few samples...
The number of rounds, or round complexity, used in an interactive protocol is a fundamental resource...
Distribution testing is an area of property testing that studies algorithms that receive few samples...
In this work, we initiate the study of proximity testing to Algebraic Geometry (AG) codes. An AG cod...
Proofs of proximity are probabilistic proof systems in which the verifier only queries a sub-linear ...
We initiate a study of non-interactive proofs of proximity. These proof systems consist of a verifie...
Interactive proofs of proximity allow a sublinear-time verifier to check that a given input is close...
Interactive proofs of proximity allow a sublinear-time verifier to check that a given input is close...
Interactive proofs of proximity (IPPs) are interactive proofs in which the verifier runs in time sub...
We show that every language in NP has a probabilistically checkable proof of proximity (i.e., proofs...
Abstract: In this paper, we describe a proof-of-concept implementation of the probabilistically chec...
The number of rounds, or round complexity, used in an interactive protocol is a fundamental resource...
The family of Reed-Solomon (RS) codes plays a prominent role in the construction of quasilinear prob...
In this paper, we describe a proof-of-concept implementation of the probabilistically checkable proo...
Probabilistic proof systems, such as probabilistically checkable proofs, interactive proofs, and zer...
Distribution testing is an area of property testing that studies algorithms that receive few samples...
The number of rounds, or round complexity, used in an interactive protocol is a fundamental resource...
Distribution testing is an area of property testing that studies algorithms that receive few samples...
In this work, we initiate the study of proximity testing to Algebraic Geometry (AG) codes. An AG cod...