Building Block Approach

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The Experts below are selected from a list of 327 Experts worldwide ranked by ideXlab platform

Xu Chen - One of the best experts on this subject based on the ideXlab platform.

S K Gupta - One of the best experts on this subject based on the ideXlab platform.

  • micro mobility protocol design and evaluation a parameterized Building Block Approach
    Vehicular Technology Conference, 2003
    Co-Authors: Ganesha Bhaskara, Ahmed Helmy, S K Gupta
    Abstract:

    In this paper, we present a novel Approach to design and analyze IP micro-mobility protocols. The functionality of micro mobility protocols is partitioned into parameterized, relatively independent, Building Blocks. We study the requirements and design options for the Building Blocks by taking into consideration a wide variety of operation scenarios, including varied support from the infrastructure and underlying layers. The Building Block Approach provides a unified framework to design and evaluate micro mobility protocols, by choosing appropriate instances of the Building Blocks and by generating scenarios targeting the particular Building Blocks. Through a case study that compares CIP, Hawaii and M&M, we illustrate how the choice of the Building Blocks affects performance of micro-mobility protocols, and how our systematic Approach aids in better analysis and design of micro mobility protocols.

Barbara Imperiali - One of the best experts on this subject based on the ideXlab platform.

Ganesha Bhaskara - One of the best experts on this subject based on the ideXlab platform.

  • Building the Blocks of protocol design and analysis: challenges and lessons learned from case studies on mobile ad hoc routing and micro-mobility protocols
    ACM SIGCOMM Computer Communication Review, 2004
    Co-Authors: Ganesha Bhaskara, Ahmed Helmy
    Abstract:

    With the emergence of new application-specific sensor and Ad-hoc networks, increasingly complex and custom protocols will be designed and deployed. We propose a framework to systematically design and evaluate networking protocols based on a 'Building Block' Approach. In this Approach, each protocol is broken down into a set of parameterized modules called "Building Blocks", each having its own specific functionality. The properties of these Building Blocks and their interaction define the overall behavior of the protocol. In this paper, we aim to identify the major research challenges and questions in the Building Block Approach. By addressing some of those questions, we point out potential directions to analyze and understand the behavior of networking protocols systematically. We discuss two case studies on utilizing the Building Block Approach for analyzing Ad-hoc routing protocols and IP mobility protocols in a systematic manner.

  • micro mobility protocol design and evaluation a parameterized Building Block Approach
    Vehicular Technology Conference, 2003
    Co-Authors: Ganesha Bhaskara, Ahmed Helmy, S K Gupta
    Abstract:

    In this paper, we present a novel Approach to design and analyze IP micro-mobility protocols. The functionality of micro mobility protocols is partitioned into parameterized, relatively independent, Building Blocks. We study the requirements and design options for the Building Blocks by taking into consideration a wide variety of operation scenarios, including varied support from the infrastructure and underlying layers. The Building Block Approach provides a unified framework to design and evaluate micro mobility protocols, by choosing appropriate instances of the Building Blocks and by generating scenarios targeting the particular Building Blocks. Through a case study that compares CIP, Hawaii and M&M, we illustrate how the choice of the Building Blocks affects performance of micro-mobility protocols, and how our systematic Approach aids in better analysis and design of micro mobility protocols.

Vincent M Rotello - One of the best experts on this subject based on the ideXlab platform.

  • A ‘Building BlockApproach To Mixed-Colloid Systems Through Electrostatic Self-Organization
    MRS Proceedings, 2020
    Co-Authors: Trent H Galow, Andrew K Boal, Vincent M Rotello
    Abstract:

    AbstractWe have developed a ‘Building BlockApproach to electrostatically-mediated construction of modular self-assembled colloid-colloid ensembles. Our strategy involves functionalization of one type of colloidal Building Block with a primary amine, and a counterpart Building Block with a carboxylic acid derivative (Scheme 1). By combining the two systems, acid-base chemistry followed by immediate charge-pairing resulted in the spontaneous formation of electrostatically-bound mixed-colloid constructs. The shape and size of these ensembles was controlled via variation of particle size for the two components and their stoichiometries.

  • a Building Block Approach to mixed colloid systems through electrostatic self organization
    Advanced Materials, 2000
    Co-Authors: Trent H Galow, Andrew K Boal, Vincent M Rotello
    Abstract:

    Abstract : We have developed a Building Block' Approach to electrostatically-mediated construction of modular self-assembled colloid-colloid ensembles. Our strategy involves functionalization of one type of colloidal Building Block with a primary amine, and a counterpart Building Block with a carboxylic acid derivative (Scheme 1). By combining the two systems, acid-base chemistry followed by immediate charge-pairing resulted in the spontaneous formation of electrostatically-bound mixed-colloid constructs. The shape and size of these ensembles was controlled via variation of particle size for the two components and their stoichiometries.

  • A “Building BlockApproach to Mixed‐Colloid Systems Through Electrostatic Self‐Organization
    Advanced Materials, 2000
    Co-Authors: Trent H Galow, Andrew K Boal, Vincent M Rotello
    Abstract:

    Abstract : We have developed a Building Block' Approach to electrostatically-mediated construction of modular self-assembled colloid-colloid ensembles. Our strategy involves functionalization of one type of colloidal Building Block with a primary amine, and a counterpart Building Block with a carboxylic acid derivative (Scheme 1). By combining the two systems, acid-base chemistry followed by immediate charge-pairing resulted in the spontaneous formation of electrostatically-bound mixed-colloid constructs. The shape and size of these ensembles was controlled via variation of particle size for the two components and their stoichiometries.

  • a Building Block Approach to mixed colloid systems through electrostatic self organization
    MRS Proceedings, 2000
    Co-Authors: Trent H Galow, Andrew K Boal, Vincent M Rotello
    Abstract:

    We have developed a highly modular electrostatically-mediated Approach to colloid-colloid and polymer-colloid networks using ‘Building Block’ and ‘bricks and mortar’ self-assembly methodologies, respectively. The former Approach involved functionalization of one type of nanoparticle Building Block with a primary amine and a counterpart Building Block with a carboxylic acid derivative. After combining these two systems, acid-base chemistry followed by immediate charge-pairing resulted in the spontaneous formation of electrostatically-bound mixed-nanoparticle constructs. The shape and size of these ensembles were controlled via variation of particle size and stoichiometries. In the ‘bricks and mortar’ Approach, a functionalized polymer is combined with complementary nanoparticles to provide mixed polymer-nanoparticle networked structures. A notable feature is the inherent porosity resulting from the electrostatic assembly. The shape and size of these ensembles were controlled via variation of particle size, stoichiometries and the order in which they were added.

  • A ‘Building BlockApproach To Mixed-Colloid Systems Through Electrostatic Self-Organization
    MRS Proceedings, 2000
    Co-Authors: Trent H Galow, Andrew K Boal, Vincent M Rotello
    Abstract:

    We have developed a highly modular electrostatically-mediated Approach to colloid-colloid and polymer-colloid networks using ‘Building Block’ and ‘bricks and mortar’ self-assembly methodologies, respectively. The former Approach involved functionalization of one type of nanoparticle Building Block with a primary amine and a counterpart Building Block with a carboxylic acid derivative. After combining these two systems, acid-base chemistry followed by immediate charge-pairing resulted in the spontaneous formation of electrostatically-bound mixed-nanoparticle constructs. The shape and size of these ensembles were controlled via variation of particle size and stoichiometries. In the ‘bricks and mortar’ Approach, a functionalized polymer is combined with complementary nanoparticles to provide mixed polymer-nanoparticle networked structures. A notable feature is the inherent porosity resulting from the electrostatic assembly. The shape and size of these ensembles were controlled via variation of particle size, stoichiometries and the order in which they were added.

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