Knowledge Discovery using Various Multimedia Data Mining Technique

Knowledge discovery in databases (KDD) is the process of discovering positive information from a gathering of data. This generally used data mining technique is a process that includes data preparation and selection, data cleansing, incorporating prior information on data sets and interpreting perfect solutions from the observed results. Knowledge Discovery in Databases is the process of finding knowledge in huge amount of data where data mining is the core of this process. Data mining can be used to understandable meaningful patterns from huge databases and these patterns may be transformed into knowledge. Multimedia data mining can be defined as the process of finding motivating patterns from media data such as audio mining , video mining, image mining and text mining that are not generally available by basic queries and associated results. It is the mining of knowledge and high level multimedia information from large multimedia database system. Multimedia data mining refers to sample discovery, rule extraction and knowledge gaining from multimedia database. In this paper, An Overview On various Multimedia Data technique is given and the main focus is given to the video Data Mining. DOI: 10.17762/ijritcc2321-8169.15035

First Principles Study on Structural and Electronic Properties of REAg (RE= Y, La, Pr and Er) Intermetallics

We The structural, electronic and mechanical properties of binary B2 – type CsCl structured intermetallic compounds of Ag (ReAg, Re= Y, La, Pr and Er) have been studies systematically by means of first principles density functional theory within generalized gradient approximation. Ground state properties such as lattice constant (a0), bulk modulus (B) and its pressure derivative (B?) are obtained. The present results are in good agreement with the experimental and other theoretical calculation available. Amongst all the Intermetallics is found ErAg to be most ductile due to the presence of strong metallic bonding. Keywords: Intermetallic compounds; Density Functional Theory; Ductility; Electronic Structure

Privacy Preserving For Secure Cloud Storage

Cloud Computing is one of the large and essential environment now a days to work for the storage collection and privacy preserve to that data. Cloud data security is most important and major concern for the client while use of the cloud services provided by the different service providers. There can be some major security concern and conflicts between the client and the service provider. To get out from those issues, a third party auditor uses as an auditor for assurance of data in the environment. Storage systems for the cloud has many fundamental challenges still today. All basic as well critical challenges among which storage space and security is generally the top concern in the cloud environment. To give the appropriate security issues we have proposed third party authentication system. The cloud not only for the simplified data storage but also secure data acquisition in cloud environment .At last we have perform different security analysis as well performance analysis. It give the results that proposed scheme has significant increases in efficiency for maintaining highly secure data storage and acquisition. The proposed method also helps to minimize the cost in environment and also increases communication efficiency in the cloud environment

A First Principle Study of Pressure Induced Structural and Electronic Properties in Neptunium Bismuthide

We have examined the pressure induced structural and electronic   properties of neptunium monobismuthides. The total energy as a function of volume is obtained by means of self-consistent tight binding linear muffin-tin-orbital (TB-LMTO) method within the local density approximation (LDA). It is found that NpBi is stable in NaCl – type structure under ambient pressure. We predict a structural phase transition from NaCl-type (B1-phase) sructure to CsCl-type (B2-phase) structure for NpBi in the pressure range of 11 GPa. We also calculate the lattice parameter (a0), bulk modulus (B0), band structure and density of states. From energy band diagram it is observed that NpBi exhibit metallic behaviour. The calculated equilibrium lattice parameters and bulk modulus are in general good agreement with available experimental data. Keywords: Structural phase transition; Electronic band structure; Metallic

Visual Eureka Navigating Images Through Textual Queries

Within the domain of text extraction technologies, progress has been somewhat constrained, notwithstanding notable instances such as Google Lens, which proficiently extracts text from images. A conspicuous gap persists, however, in the availability of software tailored for the reciprocal task of searching images based on their textual content. Our pioneering conceptual framework introduces a transformative paradigm shift—a software solution engineered for image retrieval through text search. The crux of our technical innovation lies in the systematic incorporation of metadata as a repository for textual data linked to images. Through advanced text extraction algorithms, including robust optical character recognition methods, we decipher and store relevant textual information in this metadata. This meticulous indexing facilitates a highly efficient search mechanism, allowing users to query images based on specific text-related parameters. The user interface seamlessly integrates these functionalities, providing an intuitive platform for users to input text queries and retrieve images with unprecedented precision. Scalability and performance optimization measures ensure the system's adaptability to growing datasets, promising not only a redefined utility of image search but also a significant advancement in user convenience and operational efficiency within the visual data retrieval landscape

Synthesis, characterization, biological and thermal properties of some new Schiff base complexes derived from 2-hydroxy-5-chloroacetophenone and S-methyldithiocarbazate

2120-2125A new Schiff base derived from 2-hydroxy-5-chloroacetophenone and S-methyldithiocarbazate and its coordination complexes with manganese(II), iron(II) cobalt (II), nickei(II), copper(II), zinc(II), cadmium(II) and oxovanadium(IV) have been synthesized. The resulting complexes have been characterized on the basis of their elemental analyses, molecular weight, infrared spectra, reactance spectra, magnetic susceptibilities, molar conductance measurements and thermogravimetric analysis. The Schiff base acts as a tridentate diabasic donor and coordinating through the deprotonated phenolic oxygen, thi oenolic sulphur and azomethine nitrogen atoms. The antibacterial activities of the ligand and its complexes have been screened against E. coli, S. aureus, Pr. mirabilis and S. typhi. Various kinetic and thermodynamic parameters have been evaluated from the thermograv imetric data and comparable values are obtained. Solid state conductivity of ligand and its complexes have also been measured from room temperature to about 473 K, in their pellet forms and the chelates are found to show semiconducting behaviour

First Principle Structural, Magnetic and Electronic Properties of Rare Earth Mono-Phosphide

The basic, attractive and electronic properties of plutonium phosphide (PuP) have been researched utilizing tight-restricting direct biscuit tin orbital (TB-LMTO) technique inside the neighborhood turn thickness estimation (LSDA). Both non-turn captivated and turn enraptured counts are performed. It is discovered that PuP is steady in ferromagnetic state and in NaCl-type structure under surrounding weight. We foresee a first request basic stage progress from NaCl to CsCl-type structure at a weight of 42GPa. From vitality band outline it is seen that PuP shows metallic conduct. The determined balance grid parameter is in great concurrence with the exploratory and other hypothetical work