Apvp

$380.00$12,000.00

alpha-Pyrrolidinovalerophenone (also known as α-PVP, A-PVP, alpha-PVP, and flakka) is a novel stimulant substance of the cathinone class. α-PVP is chemically related to prolintane and belongs to a group called the substituted cathinone, which includes compounds like MDPV, Hexen, and a-PHP. It acts as a norepinephrine-dopamine reuptake inhibitor.

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Apvp

APVP is a potent and selective norepinephrine-dopamine reuptake inhibitor (NDRI), with a similar potency as MDPV.[3] α-PVP does not act as a transporter substrate, i.e. it does not cause neurotransmitter release. It is a more potent inhibitor of DAT and NET than the classical stimulants cocaine and amphetamine .

A mobile ad hoc network (MANET) is a collection of mobile nodes that forms a provisional network dynamically without the aid of any predetermined infrastructure. In particular, the route security is more important. In order to solve the problem several route discovery protocols have been proposed such as ARAN and SRP ect. But those protocols suffer from two problems: (1) difficult in operation, (2) lacked the sufficient security guarantee. In the paper, an aggregate-based path verification protocol is proposed, which adopts the identity-based cryptography (IBC) and aggregate signatures algorithm for verifying the nodes validity. Compared with ARAN, APVP can verify all nodes, with lower computational complication, higher security and efficiency. APVP could be more easily implemented and deployed across ad hoc network. Security proofs according to the corresponding security definitions and under appropriate computational assumptions are provided for the proposed scheme.

α-Pyrrolidinopentiophenone is a synthetic stimulant of the cathinone class developed in the 1960s that has been sold as a designer drug. Colloquially, it is sometimes called flakka. α-PVP is chemically related to pyrovalerone and is the ketone analog of prolintane.

FormulaC15H21NO
Boiling point113 °C
A mobile ad hoc network (MANET) is a collection of mobile nodes that forms a provisional network dynamically without the aid of any predetermined infrastructure. In particular, the route security is more important. In order to solve the problem several route discovery protocols have been proposed such as ARAN and SRP ect. But those protocols suffer from two problems: (1) difficult in operation, (2) lacked the sufficient security guarantee. In the paper, an aggregate-based path verification protocol is proposed, which adopts the identity-based cryptography (IBC) and aggregate signatures algorithm for verifying the nodes validity. Compared with ARAN, APVP can verify all nodes, with lower computational complication, higher security and efficiency. APVP could be more easily implemented and deployed across ad hoc network. Security proofs according to the corresponding security definitions and under appropriate computational assumptions are provided for the proposed scheme.

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