MULTI NODE RELAY COOPERATIVE MIMO NETWORK IN CELLULAR SYSTEM

There are different communication standards in present mobile communication industry. Each of this standards has its own feature, architecture, and channel assignment strategies. Each mobile operator uses one of any standard and their aim is to support as much user as possible to communicate with tolerable interference. For that reason they use different cluster size and frequency planning to cover entire geographical area. To reuse the given bandwidth within the entire geographical area some cells uses same sets of frequency and interference arise when the distance between these cells is small. Also when distance is large then capacity is going low. In this thesis our work is to investigation the co channel interference among different cluster size assuming a limited sub urban geographical area in a cellular GSM network. Also we calculate the number of users using each of this cluster size and finally design a cellular system in this geographical area using best results (minimum interference and maximum capacity).

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Novel Adaptive Cooperative-MIMO for LTE Technology

International Journal of Computer Sciences and Engineering ◽

10.26438/ijcse/v6i6.1826 ◽

2018 ◽

Vol 6 (6) ◽

pp. 18-26

Author(s):

Sukhreet Kaur ◽

Amita Soni

Keyword(s):

Cooperative Mimo

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Protective Activity of Fucoidan and Alginic Acid against Free Radical-Induced Oxidative Stress under in Vitro and Cellular System

Preventive Nutrition and Food Science ◽

10.3746/jfn.2007.12.4.191 ◽

2007 ◽

Vol 12 (4) ◽

pp. 191-196 ◽

Cited By ~ 9

Author(s):

Mi-Jung So ◽

Boh-Kyung Kim ◽

Mi-Jin Choi ◽

Kun-Young Park ◽

Sook-Hee Rhee ◽

...

Keyword(s):

Oxidative Stress ◽

Free Radical ◽

Alginic Acid ◽

Cellular System ◽

Protective Activity

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Formalization and Semantic Integration of Heterogeneous Omics Annotations for Exploratory Searches

Current Bioinformatics ◽

10.2174/1574893615666200127122818 ◽

2020 ◽

Vol 15 ◽

Author(s):

Omer Irshad ◽

Muhammad Usman Ghani Khan

Keyword(s):

Data Integration ◽

Semantic Integration ◽

Biological Data ◽

Cellular System ◽

Formal Specifications ◽

Integration Model ◽

Geographically Dispersed ◽

Proposed Model ◽

Data Heterogeneity ◽

Biological Entities

Aim: To facilitate researchers and practitioners for unveiling the mysterious functional aspects of human cellular system through performing exploratory searching on semantically integrated heterogeneous and geographically dispersed omics annotations. Background: Improving health standards of life is one of the motives which continuously instigates researchers and practitioners to strive for uncovering the mysterious aspects of human cellular system. Inferring new knowledge from known facts always requires reasonably large amount of data in well-structured, integrated and unified form. Due to the advent of especially high throughput and sensor technologies, biological data is growing heterogeneously and geographically at astronomical rate. Several data integration systems have been deployed to cope with the issues of data heterogeneity and global dispersion. Systems based on semantic data integration models are more flexible and expandable than syntax-based ones but still lack aspect-based data integration, persistence and querying. Furthermore, these systems do not fully support to warehouse biological entities in the form of semantic associations as naturally possessed by the human cell. Objective: To develop aspect-oriented formal data integration model for semantically integrating heterogeneous and geographically dispersed omics annotations for providing exploratory querying on integrated data. Method: We propose an aspect-oriented formal data integration model which uses web semantics standards to formally specify its each construct. Proposed model supports aspect-oriented representation of biological entities while addressing the issues of data heterogeneity and global dispersion. It associates and warehouses biological entities in the way they relate with Result: To show the significance of proposed model, we developed a data warehouse and information retrieval system based on proposed model compliant multi-layered and multi-modular software architecture. Results show that our model supports well for gathering, associating, integrating, persisting and querying each entity with respect to its all possible aspects within or across the various associated omics layers. Conclusion: Formal specifications better facilitate for addressing data integration issues by providing formal means for understanding omics data based on meaning instead of syntax

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