The study proposes a novel, efficient, highly accurate, and precise fingerprinting through the Short Time Power Spectral Density (ST-PSD) method. Significant aspects are near similarity of the different original audio, in-variance to noises and spectral or temporal distortions, a minimum length of song track needed for identification, retrieval speed, and computing load. The challenges and research problems in an audio recognition system in regular use can vary from many different aspects. To complement the rich number of suggested methods and research in this field, we encourage the design of yet another fingerprinting method. We create a system capable of retrieving analog signals from the radio channel with the proposed Internet of Things (IoT) and Application Programming Interface (API), in conjunction with creating models of database clustering. In this thesis, we identify an audio identification task through audio signal processing for extracting fingerprinting, emphasizing the complex task of designing a highly robust system for the signal from Frequency Modulation (FM) Radio Broadcasting. Similar to other cloud applications such as Dropbox and Google, if a user has already an account on TwinCloud and opens the program for the first time, the application Authentication and Grant Access operations are also implemented using Selenium. The application saves the access tokens in order not to repeat these steps in every login. Finally, Dropbox and Google Drive returns the access tokens (7). TwinCloud uses the authorization code to exchange the access tokens (6). Dropbox and Google Drive returns an authorization code (5) which will be used to get the access token. This authentication is performed by the application (3) and the program automatically grants the access (4). Dropbox and Google Drive request an authentication. TwinCloud, in the backend, performs the login to Dropbox and Google Drive by following these steps: TwinCloud requests an access token from Google Drive and Dropbox separately (2). First, user logs in to the TwinCloud by entering his/her username and password (1). This paper presents TwinCloud and compares it to other cloud storage systems. A usability study for TwinCloud is also included in the paper. Serving as a gateway, TwinCloud uses two or more separate cloud providers and symmetric key encryption to store the encryption keys and encrypted files in separate clouds which ease the sharing process without conceding security. It uses a simple and practical approach to store and share files by hiding all the cryptographic and key-distribution operations from cloud users. TwinCloud achieves this by solving the complex key exchange problem in sharing. TwinCloud is an innovative cloud storage solution which goal is to provide a secure cloud system to users without compromising any of the advantages the clouds have to offer. In this paper, we propose a novel solution, TwinCloud. Although, there are several third-party solutions to provide security in clouds, they are not used extensively because of usability issues. However, both security conscious personal and cooperate users are reluctant to trust cloud service providers. Cloud service providers try to convince users to trust their services and encourage them to store personal files or corporate documents on their servers. With the advent of cloud technologies, there is a growing number of easy-to-use services to store files and share them with other cloud users.
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