DevanshKandpal: Bot: wrap bare course codes in wikilinks

2026-04-14T16:21:42Z

Bot: wrap bare course codes in wikilinks

← Older revision		Revision as of 16:21, 14 April 2026
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	{{Infobox Course		{{Infobox Course
	\| code = APL765		\| code = APL765
	\| name = and MLL714		\| name = and [[MLL714]]
	\| credits = 3		\| credits = 3
	\| credit_structure = 3-0-0		\| credit_structure = 3-0-0
	\| pre_requisites = For ME1/ME2: APL100, APL104, MCL211,		\| pre_requisites = For ME1/ME2: [[APL100]], [[APL104]], [[MCL211]],
	\| overlaps =		\| overlaps =
	}}		}}

	== APL765 : and MLL714 ==		== APL765 : and [[MLL714]] ==
	MTL100, MTL101 Acoustic wave equation; Sound propagation, absorption, reflection and transmission; Acoustical Transmission lines and filters; Analysis of mufflers using transmission matrices; Acoustics of cavities; acoustic modes; Modal density; frequency response; Response via modal analysis; Structural-acoustic cavities; weakly-coupled cavities Strongly-coupled cavities; coupled modes; Finite element analysis of interior acoustic problems; acoustic finite elements; coupling analysis; panel contribution analysis; Sound radiation from structures; infinite plates; finite plates; radiation efficiency; Rayleigh integral; Finite element analysis of Sound radiation problems; Concept of radiation modes; Basic idea of boundary element method and its application for Interior and radiation problems in acoustics; Aerodynamic noise; Inhomogeneous wave equation; Lighthill's acoustic analogy; Introduction to statistical energy analysis. MCL 713 Active Noise Control 3 Credits (3-0-0) Acoustic wave equation; plane and spherical waves; Reflection and transmission; Passive control measures and their Limitations; Fourier series; Fourier Integral; Random processes; Laplace Transform; Optimal filtering; z-transform; FIR and IIR filters; Active control in ducts; mechanisms of cancellation; Single channel feedforward control of sound; LMS algorithm; Reference signals; FxLMS algorithm; Identification of secondary paths; Single channel feedback control; Active control of free field sound radiation; Global control of enclosed 3D sound fields; Local control of enclosed 3D sound fields; Diffused sound fields; Active control of sound in vibro-acoustic cavities; Active structural-acoustic control (ASAC); Feedforward, Feedback and optimal control; Multichannel feedforward control; Applications of active noise control; Implementation and demonstration of an experimental active noise control system. MCL 714 Orthopedic Biomechanics and Implant Design 3 Credits (2-0-2) MCL311 Basic terminology and concept of human musculoskeletal system, anatomy and overall function; Human gait analysis: Kinematics, Kinetics, Dynamics and Control; Mechanical properties of bone; Growth, Modeling and Remodeling of Bone; Mechanical Properties of Muscles, Ligament and Tendon; Mechanics of cartilage and its degradation; Joint replacement implants and its materials; Failure modes of orthopedic implants; Design of hip, knee and ankle implants.		[[MTL100]], [[MTL101]] Acoustic wave equation; Sound propagation, absorption, reflection and transmission; Acoustical Transmission lines and filters; Analysis of mufflers using transmission matrices; Acoustics of cavities; acoustic modes; Modal density; frequency response; Response via modal analysis; Structural-acoustic cavities; weakly-coupled cavities Strongly-coupled cavities; coupled modes; Finite element analysis of interior acoustic problems; acoustic finite elements; coupling analysis; panel contribution analysis; Sound radiation from structures; infinite plates; finite plates; radiation efficiency; Rayleigh integral; Finite element analysis of Sound radiation problems; Concept of radiation modes; Basic idea of boundary element method and its application for Interior and radiation problems in acoustics; Aerodynamic noise; Inhomogeneous wave equation; Lighthill's acoustic analogy; Introduction to statistical energy analysis. MCL 713 Active Noise Control 3 Credits (3-0-0) Acoustic wave equation; plane and spherical waves; Reflection and transmission; Passive control measures and their Limitations; Fourier series; Fourier Integral; Random processes; Laplace Transform; Optimal filtering; z-transform; FIR and IIR filters; Active control in ducts; mechanisms of cancellation; Single channel feedforward control of sound; LMS algorithm; Reference signals; FxLMS algorithm; Identification of secondary paths; Single channel feedback control; Active control of free field sound radiation; Global control of enclosed 3D sound fields; Local control of enclosed 3D sound fields; Diffused sound fields; Active control of sound in vibro-acoustic cavities; Active structural-acoustic control (ASAC); Feedforward, Feedback and optimal control; Multichannel feedforward control; Applications of active noise control; Implementation and demonstration of an experimental active noise control system. MCL 714 Orthopedic Biomechanics and Implant Design 3 Credits (2-0-2) [[MCL311]] Basic terminology and concept of human musculoskeletal system, anatomy and overall function; Human gait analysis: Kinematics, Kinetics, Dynamics and Control; Mechanical properties of bone; Growth, Modeling and Remodeling of Bone; Mechanical Properties of Muscles, Ligament and Tendon; Mechanics of cartilage and its degradation; Joint replacement implants and its materials; Failure modes of orthopedic implants; Design of hip, knee and ankle implants.

Prashantt492: Creating course page via bot

2026-03-04T10:16:07Z

Creating course page via bot

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{{Infobox Course
| code = APL765
| name = and MLL714
| credits = 3
| credit_structure = 3-0-0
| pre_requisites = For ME1/ME2: APL100, APL104, MCL211,
| overlaps =
}}

== APL765 : and MLL714 ==
MTL100, MTL101 Acoustic wave equation; Sound propagation, absorption, reflection and transmission; Acoustical Transmission lines and filters; Analysis of mufflers using transmission matrices; Acoustics of cavities; acoustic modes; Modal density; frequency response; Response via modal analysis; Structural-acoustic cavities; weakly-coupled cavities Strongly-coupled cavities; coupled modes; Finite element analysis of interior acoustic problems; acoustic finite elements; coupling analysis; panel contribution analysis; Sound radiation from structures; infinite plates; finite plates; radiation efficiency; Rayleigh integral; Finite element analysis of Sound radiation problems; Concept of radiation modes; Basic idea of boundary element method and its application for Interior and radiation problems in acoustics; Aerodynamic noise; Inhomogeneous wave equation; Lighthill's acoustic analogy; Introduction to statistical energy analysis. MCL 713 Active Noise Control 3 Credits (3-0-0) Acoustic wave equation; plane and spherical waves; Reflection and transmission; Passive control measures and their Limitations; Fourier series; Fourier Integral; Random processes; Laplace Transform; Optimal filtering; z-transform; FIR and IIR filters; Active control in ducts; mechanisms of cancellation; Single channel feedforward control of sound; LMS algorithm; Reference signals; FxLMS algorithm; Identification of secondary paths; Single channel feedback control; Active control of free field sound radiation; Global control of enclosed 3D sound fields; Local control of enclosed 3D sound fields; Diffused sound fields; Active control of sound in vibro-acoustic cavities; Active structural-acoustic control (ASAC); Feedforward, Feedback and optimal control; Multichannel feedforward control; Applications of active noise control; Implementation and demonstration of an experimental active noise control system. MCL 714 Orthopedic Biomechanics and Implant Design 3 Credits (2-0-2) MCL311 Basic terminology and concept of human musculoskeletal system, anatomy and overall function; Human gait analysis: Kinematics, Kinetics, Dynamics and Control; Mechanical properties of bone; Growth, Modeling and Remodeling of Bone; Mechanical Properties of Muscles, Ligament and Tendon; Mechanics of cartilage and its degradation; Joint replacement implants and its materials; Failure modes of orthopedic implants; Design of hip, knee and ankle implants.

APL765 - Revision history

DevanshKandpal: Bot: wrap bare course codes in wikilinks

Prashantt492: Creating course page via bot