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Mastering Facilitation:
Published in Morgan L. Jones, Mastering Facilitation, 2020
Mastering facilitation also requires the facilitator to understand – and whenever possible, demonstrate – the importance of the following: Imparting of information.The instillation of hope (potential of resilience in adversity).Altruism (others offering support and reassurance).Universality (learning that others have similar feelings).Corrective recapitulation of the primary family group (family of origin work).Developing socialising techniques (incorporating interpersonal feedback).Imitative behaviour (observing modelling interactions).Interpersonal learning.Group cohesiveness.Catharsis (the process of expressing strong feelings that have been affecting you so that they do not upset you anymore).
C
Published in Philip A. Laplante, Comprehensive Dictionary of Electrical Engineering, 2018
central limit theorem (CLT) alteration of the transit time. They could be applied for representation of cell synchronization, cell destruction, and cell recruitment from the specific phase. cellular automaton system designed from many discrete cells, usually assembled in oneor two-dimensional regular arrays, each of which is a standard finite state machine. Each cell may change its state only at fixed, regular intervals, and only in accordance with fixed rules that depend on cells' own values and the values of neighbors within a certain proximity (usually two- for one-dimensional, and four- for two-dimensional cellular automata). Cellular automata are a base of cellular computers; fine grain systems that are usually data-driven and used to implement neural networks, systolic arrays, and SIMD architectures. cellular communications traditionally, an outside-of-building radio telephone system that allows users to communicate from their car or from their portable telephone. cellular manufacturing grouping of parts by design and/or processing similarities such that the group (family) is manufactured on a subset of machines which constitute a cell necessary for the group's production. cellular spectral efficiency the cellular spectral efficiency of a system is defined as the sum of the maximum data rates that can be delivered to subscribers affiliated to all base stations in a re-use cluster of cells, occupying as small a physical area as possible. Mathematically, the cellular spectral efficiency, , is defined as =
Incorporation of post-occupancy evaluation in building information modeling: a case study in Brazil
Published in Architectural Engineering and Design Management, 2023
Ana Luísa Trevisan dos Santos, Simone Barbosa Villa, Giovana Moura Garcia, Camilla Ribeiro Leão
From the color map obtained by the average of the responses of each typology, for groups F1, F2, FL1, FL2, FL3, P1, P2 (Figure 10), an analysis of the project used as a case study was carried out to evaluate the answers obtained by each group. This analysis aims to understand the design parameters that may have led the residents to respond with satisfaction or dissatisfaction for each group. To perform this analysis, tables (Table 3) were produced with design recommendations pre-defined by consolidated authors, previous research, and technical design standards, guide the analysis. Analyzes and charts were performed for all groups in order to evaluate the design quality parameters of this project. As example, for the analysis of the F1 group (Family profile + Kitchen size + Ease of furnishing the kitchen) a table was made with the minimum required dimensions, circulation and space for furniture needed for the kitchen (Table 3).
Lothar Meyer’s Pathway to Periodicity
Published in Ambix, 2019
The reorientation of the grid by 90 degrees and other complicating visual elements have masked some interesting new and some familiar old aspects. Common to both his 1864 and 1868 tables, and repeated again, is a visual way of distinguishing his six-by-six grid of what we now call main-group elements from what we now call the transition elements. Here in the new table we see eight chemically related triads of transition metals—or rather nine, for one of his triads consists only of three blank spaces with dashes (which comprise the empty row mentioned at the end of the preceding paragraph). The six-by-six main-group columns—now rows—of element-families have been augmented to seven-by-six, for Meyer has now created a new trivalent main-group family consisting of four elements, two of them new to this table: boron, aluminum, indium (with a question mark), and thallium. (There will be more to say about this important new boron-group family, below.)
A method combining rules with genetic algorithm for minimizing makespan on a batch processing machine with preventive maintenance
Published in International Journal of Production Research, 2020
Jingying Huang, Liya Wang, Zhibin Jiang
This paper addressed the problem of minimising makespan on a single batch processing machine with flexible periodic preventive maintenance. This problem has not been discussed before. To minimise makespan, we should make decisions of how to group family jobs with release dates into batches, how to schedule batches and how to arrange preventive maintenance on a batch processing machine together. A mathematical model for minimising makespan on a single batch processing machine with flexible periodic preventive maintenance is proposed. A method combining rules with GA is proposed, in which a batching rule is proposed to group jobs with incompatible job families into batches and a modified GA is proposed to schedule batches and arrange preventive maintenance activities.