A singular value decomposition updating algorithm for subspace tracking 2142 stats not updating
A big construction project will be considered and will be sub-divided into several components.
Teams of students will act as separate ‘consulting agencies’ and will carry out complete planning, analysis, design and construction planning for these components.
The Destombes-Rosai-Dorfman Disease or Sinus Histiocytosis with Massive Lymphadenopathy: A Rare Case Described in the Paediatrics Department of Yalgado Ouedraogo University Hospital Chantal Zoungrana-Ouattara, Flore Ouédraogo, Laure Toguyéni, Angèle Kalmogho, Caroline Yonaba, Chantal Gabrielle Bouda, Rolande Kaboré, Fla Kouéta Stand Structure, Allometric Equations, Biomass and Carbon Sequestration Capacity of Acacia mangium Wild.
(Mimosaceae) in Côte d’Ivoire Soulemane Traoré, Adrien N. N’guessan, Brahima Coulibaly, Assandé Ahoba, Guy M.
Study of topographic sheet and analysis of hillslope and watershed features 3.
Drawing profile sections and interpretation of geological maps of different complexities.
Transients in open channel flows: Causes of transients, Governing equations, Method of characteristics, Explicit and Implicit Finite Difference methods, Sediment routing, Coordinate transformation and two-Dimensional flow simulations, VOF method for surface tracking.Cost estimating and bidding: material estimates, labor and equipment costs, cost control, purchasing, tender bidding; Project scheduling: bar charts, PERT, CPM, network diagrams; Project management: quality assurance, crisis management, claims management, safety; Construction machinery and methods; Construction accounting and budgeting; Construction law: building codes, local laws, approvals, environmental impact; arbitration; Construction blueprint and plan reading, environmental considerations; Client relations; Introduction to use of project management software Role of constitutive modeling; Importance of laboratory testing with relation to constitutive modeling; Elasticity: linear, quasilinear, anisotropic; Plasticity basics: yield criteria, flow rule, plastic potential, hardening/softening; Rate Independent Plasticity: Mohr-Coulomb, Non-linear failure criteria, Drucker-Prager, and cap models; Critical state soil mechanics: critical state concept, cam-clay models and simulation; Stress-dilatancy theory; Work hardening plasticity theory: formulation and implementation; Applications of elasto-plastic models; Special Topics: hypoelasticity-plasticity, disturbed state concept.Review of performance-based design concepts, LRFD cold design of RCC and steel structures; codified models for fire, standard and natural fire; material behavior of steel and concrete constituents in fire; estimation of time-temperature curves for structural members in different fire and exposure/ventilation scenarios; design considerations for individual members exposed to fire: structural members in tension, compression, bending; provisions in Eurocodes and IS 456, 800, 1641, 16 to ensure fire safety; fire proofing materials used to enhance fire resistance of structural members; behavior of structural systems under fire; preventive/protective systems for structures.manual analysis; Codes of Practice; Loads (dead, live, earthquake, wind, etc.) on structures; Load combinations; Discussions on various structural analysis problems; Calculations and drawings; Organizations and management; Professional liability concerns; Design tools; Structural load path; Group or individual project (design a structure of your choice); Design project report preparation and presentation; Review of project by professional experts.Single Degree Freedom System (equation of motion; free and force vibrations; seismic excitation; time history analysis; response spectrum; approximate methods), Multiple Degrees Freedom System (eigenvalue problem; shear buildings; mode superposition method; modal combination rules; time history analysis), One story system (lateral-torsional coupling; non-orthogonal lateral coupling; directional combination rule) and introduction to continuum systems (flexural beam, its natural properties, response due to seismic excitation)Stability of rigid and discrete systems, Static, dynamic, imperfection and energy approaches to stability; Buckling; Snap through and post-buckling; Stability of continuous systems- columns beams and beam-columns; Inelastic buckling; Stability of frames; Numerical methods in stability- Timoshenko, Rayleigh Ritz and Galerkin methods, Direct stiffness method in stability problems; Stability of plates, stiffened plates and shells.
Special topics inf the form of case studies will be discussed related to: Introduction to sustainability: humanity and environment, the evolution of environmental policy, climate and global change, climate processes: external and internal controls, modern climate change, climate projections, biosphere, soil and sustainability, biodiversity and ecosystem functions, physical resources: water, pollution, minerals, environmental and resource economics, modern environmental management, systems of waste management, sustainable energy systems, sustainable infrastructure, embodied energy, life cycle, sustainable materials and construction, problem solving and tools of sustainability Phase relations; Soil classification, index properties, grain-size distribution; Effective stress principle; Flow through porous media, Darcy’s law, permeability, different heads, 2-D Seepage and flow nets; Compaction characteristics; Compressibility and Consolidation characteristics, 1-D compression response, Terzaghi’s theory of consolidation, secondary consolidation; Settlement of foundations, immediate and time-dependent settlement, allowable settlement; Shear-strength of Soil, Mohr-coulomb failure criteria, direct shear and UC tests; in situ test – SPT, CPT; Earth-pressure theory, Coulomb and Rankine approaches; Bearing capacity, failure modes, generalized bearing capacity equation, net- and gross bearing capacity, allowable bearing pressure.