Bina Nusantara Aplikasi Simulasi Peretemuan 25: Mata kuliah: K0194-Pemodelan Matematika Terapan Tahun: 2008.

Slides:



Advertisements
Presentasi serupa
Analisis Kinerja Sistem
Advertisements

2. Introduction to Algorithm and Programming
RENCANA PENGEMBANGAN PERANGKAT LUNAK (RPPL)
1 Pertemuan 1 Introduction Matakuliah: sistem Operasi Tahun: 2010.
BUDIYONO Program Pascasarjana UNS
Pengertian dan Peranan Statistika dan Data Statistik Pertemuan 01
IMAM ZAENUDIN, Perbedaan Hasil Belajar Siswa Antara Pembelajaran Menggunakan Model Contextual Teaching and Learning (CTL) dan Pembelajaran Konvensional.
Presented By : Group 2. A solution of an equation in two variables of the form. Ax + By = C and Ax + By + C = 0 A and B are not both zero, is an ordered.
Bina Nusantara Model Simulasi Peretemuan 23 (Off Clas) Mata kuliah: K0194-Pemodelan Matematika Terapan Tahun: 2008.
Akhid Yulianto, SE, MSc (Log)
1 Pertemuan 09 Kebutuhan Sistem Matakuliah: T0234 / Sistem Informasi Geografis Tahun: 2005 Versi: 01/revisi 1.
1 Pertemuan 12 Pengkodean & Implementasi Matakuliah: T0234 / Sistem Informasi Geografis Tahun: 2005 Versi: 01/revisi 1.
Ruang Contoh dan Peluang Pertemuan 05
Pendugaan Parameter Proporsi dan Varians (Ragam) Pertemuan 14 Matakuliah: L0104 / Statistika Psikologi Tahun : 2008.
1 Pertemuan 2 Object Oriented Understanding Matakuliah: M0446/Analisa dan Perancangan Sistem Informasi Tahun: 2005 Versi: 0/0.
1 Pertemuan 02 Pemilihan Sistem Matakuliah: M0086/Analisis dan Perancangan Sistem Informasi Tahun: 2005 Versi: 5.
METODE SIMULASI Pertemuan 19
Phase III Rapid Prototyping and Demonstration Prototype
1 Pertemuan 10 Fungsi Kepekatan Khusus Matakuliah: I0134 – Metode Statistika Tahun: 2007.
1 Pertemuan 21 Function Matakuliah: M0086/Analisis dan Perancangan Sistem Informasi Tahun: 2005 Versi: 5.
1 Pertemuan 22 Analisis Studi Kasus 2 Matakuliah: H0204/ Rekayasa Sistem Komputer Tahun: 2005 Versi: v0 / Revisi 1.
Test System Architecture, Cases, & Coverage Pertemuan 5
Pertemuan 07 Peluang Beberapa Sebaran Khusus Peubah Acak Kontinu
Bina Nusantara Mata Kuliah: K0194-Pemodelan Matematika Terapan Tahun : 2008 Aplikasi Model Markov Pertemuan 22:
Dr. Nur Aini Masruroh Deterministic mathematical modeling.
1 Pertemuan 2 Unit 1 - Careers Matakuliah: G0682 / Bahasa Inggris Ekonomi 1 Tahun: 2005 Versi: versi/revisi.
1 HAMPIRAN NUMERIK SOLUSI PERSAMAAN LANJAR Pertemuan 5 Matakuliah: K0342 / Metode Numerik I Tahun: 2006 TIK:Mahasiswa dapat meghitung nilai hampiran numerik.
1 Pertemuan #1 Introduction Matakuliah: H0332/Simulasi dan Permodelan Tahun: 2005 Versi: 1/1.
1 Pertemuan #3 Probability Distribution Matakuliah: H0332/Simulasi dan Permodelan Tahun: 2005 Versi: 1/1.
1 Pertemuan 5 Komunikasi antar Proses / Interprocess Communication (IPC) Matakuliah: T0316/sistem Operasi Tahun: 2005 Versi/Revisi: 5 OFFCLASS01.
1 Pertemuan 24 Matakuliah: I0214 / Statistika Multivariat Tahun: 2005 Versi: V1 / R1 Analisis Struktur Peubah Ganda (IV): Analisis Kanonik.
1 Pertemuan 11 Function dari System Matakuliah: M0446/Analisa dan Perancangan Sistem Informasi Tahun: 2005 Versi: 0/0.
Materi. Introduction In this discussion the appliaction of maintainability to the design process is addressed. The maintainability design process is similar.
1 Pertemuan 6 Komunikasi antar Proses (IPC) Lanjutan Matakuliah: T0316/sistem Operasi Tahun: 2005 Versi/Revisi: 5 OFFCLASS01.
1 Pertemuan 10: Engine Trouble Matakuliah: G0942/Listening 1 Tahun: 2009 Versi: baru.
Rekayasa Trafik, Sukiswo
Copyright © 2011 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Chapter 9 Relational Database Design by ER- to-Relational Mapping.
Pertemuan 2 Tetty Harahap, ST., M.Eng
EIS (Executive Information Systems)
PENGANTAR ILMU EKONOMI MIKRO
DISTRIBUSI BINOMIAL.
KOMUNIKASI DATA Materi Pertemuan 3.
Proses astrofisika i SENSITIVITY TO INITIAL CONDITIONS
Pertemuan 5 Struktur dan Hubungan Antara Class dan Object
Online Quiz/Test.
Pengujian Hipotesis (I) Pertemuan 11
Matakuliah : I0014 / Biostatistika Tahun : 2005 Versi : V1 / R1
DISTRIBUSI BINOMIAL.
Aplikasi Simulasi Pertemuan 24 (GSLC)
Pertemuan 10 Kombinasi Data Label Kemasan dan Kemasan
Pendugaan Parameter (II) Pertemuan 10
EIS (Executive Information Systems)
Phase III Rapid Prototyping and Demonstration Prototype
PERSAMAAN DIFERENSIAL (DIFFERENTIAL EQUATION)
Fungsi Kepekatan Peluang Khusus Pertemuan 10
Master data Management
An assessment of Pedestrian Ways in Unsyiah
TEORI PROBABILITAS by WAHYUYANTI (WYT)
A SMALL TRUTH TO MAKE LIFE 100%. Hard Work H+A+R+D+W+O+R+K = 98% Knowledge K+N+O+W+L+E+D+G+E = 96%
How to Set Up AT&T on MS Outlook ATT is a multinational company headquartered in Texas. ATT services are used by many people widely across.
How You Can Make Your Fleet Insurance London Claims Letter.
Don’t Forget to Avail the Timely Offers with Uber
Suhandi Wiratama. Before I begin this presentation, I want to thank Mr. Abe first. He taught me many things about CorelDRAW. He also guided me when I.
Software Testing Strategies
HughesNet was founded in 1971 and it is headquartered in Germantown, Maryland. It is a provider of satellite-based communications services. Hughesnet.
Fix problems opening Norton  Fix problems opening Norton This problem can happen after you update Norton. To fix the matter, restart the computer. Fix.
By Yulius Suprianto Macroeconomics | 02 Maret 2019 Chapter-5: The Standard of Living Over Time and A Cross Countries Source: http//
BAB 9 TEORI PRODUKSI. 2 Introduction Our focus is the supply side. The theory of the firm will address: How a firm makes cost-minimizing production decisions.
Rank Your Ideas The next step is to rank and compare your three high- potential ideas. Rank each one on the three qualities of feasibility, persuasion,
Vector. A VECTOR can describe anything that has both MAGNITUDE and DIRECTION The MAGNITUDE describes the size of the vector. The DIRECTION tells you where.
Transcript presentasi:

Bina Nusantara Aplikasi Simulasi Peretemuan 25: Mata kuliah: K0194-Pemodelan Matematika Terapan Tahun: 2008

Bina Nusantara Learning Outcomes Mahasiswa akan dapat mengaplikasikan model simulasi ke berbagai permasalahan khususnya untuk simulasi atrian. Simulasi persediaan dalam berbagai contoh..

Bina Nusantara Outline Materi: Pengertian Simulasi Atrian Simulasi Persediaan Simulasi Transpostrasi Contoh penggunaan

Bina Nusantara General Principles –The system is broken down into suitable components or entities –The entities are modeled separately and are then connected to a model describing the overall system  A bottom-up approach! The basic principles apply to all types of simulation models –Static or Dynamic –Deterministic or Stochastic –Discrete or continuous In BPD (Birth and Death Processes) and OM situations computer based Stochastic Discrete Event Simulation (e.g. in Extend) is the natural choice –Focuses on events affecting the state of the system and skips all intervals in between Building a Simulation Model

Bina Nusantara Steps in a BPD Simulation Project 8. Experimental Design 9. Model runs and analysis 10. More runs No Yes 3. Model conceptualization 4. Data Collection 5. Model Translation 6. Verified 7. Validated Yes No Yes Phase 3 Experimentation 1. Problem formulation 2. Set objectives and overall project plan Phase 1 Problem Definition Phase 2 Model Building 11. Documentation, reporting and implementation Phase 4 Implementation

Bina Nusantara Verification (efficiency) –Is the model correctly built/programmed? –Is it doing what it is intended to do? Validation (effectiveness) –Is the right model built? –Does the model adequately describe the reality you want to model? –Does the involved decision makers trust the model?  Two of the most important and most challenging issues in performing a simulation study Model Verification and Validation

Bina Nusantara Find alternative ways of describing/evaluating the system and compare the results –Simplification enables testing of special cases with predictable outcomes  Removing variability to make the model deterministic  Removing multiple job types, running the model with one job type at a time  Reducing labor pool sizes to one worker Build the model in stages/modules and incrementally test each module –Uncouple interacting sub-processes and run them separately –Test the model after each new feature that is added –Simple animation is often a good first step to see if things are working as intended Model Verification Methods

Bina Nusantara Validation - an Iterative Calibration Process The Real System Conceptual Model 1.Assumptions on system components 2.Structural assumptions which define the interactions between system components 3.Input parameters and data assumptions Conceptual validation Operational Model (Computerized representation) Model verification Calibration and Validation

Bina Nusantara Assume a small branch office of a local bank with only one teller. Empirical data gathering indicates that inter-arrival and service times are exponentially distributed. –The average arrival rate = = 5 customers per hour –The average service rate =  = 6 customers per hour Using our knowledge of queuing theory we obtain –  = the server utilization = 5/6  0.83 –L q = the average number of people waiting in line –W q = the average time spent waiting in line L q = /(1-0.83)  4.2W q = L q /  4.2/5  0.83 How do we go about simulating this system? –How do the simulation results match the analytical ones? Example 1: Simulation of a M/M/1 Queue

Bina Nusantara Example 2: Antrian saluran Tunggal Misalkan data empiris tentang distribusi kurun waktu antara pertibaan dan distribusi waktu pelayanan sbb: Variabel acak yang harus disimulasi secara langsung ialah : a. Kurun waktu antara pertibaan (T) b. Kurun waktu pelayanan (L), lalu c) Buatlah SIMULASI untuk menggambarkan satu periode waktu yg mencakup 10 pertibaan ? Kurun waktu antara Pertibaan (menit) PeluangKurun waktu pelayanan (menit) Peluang , , , , , ,2 12 – 160,1

Bina Nusantara Struktur Simulasi untuk T Perlu dicatat bahwa titik tengah selang ditetapkan sebagai variabel acak.. Kemudian untuk struktur simulasi L dapat dilihat berikut ini : Harga variabel acak untuk waktu pertibaan (b) Peluang f(b)Peluang kumulatif F(b) Selang 0-1 bilangan acak terdistribusi. (1) 20,4 0,0 -- 0,4 60,30,70,4 – 0,7 100,20,90,7 – 0,9 140,11,00,9 -- 1,0

Bina Nusantara Struktur Simulasi untuk L Maka satu simulasi untuk satu periode waktu yang mencakup 10 pertibaan adalah seperti berikut ini : Harga variabel acak untuk waktu pelayanan (t) Peluang f(t)Peluang kumulatif F(t) Selang 0-1 bilangan acak terdistribusi. (2) 10,4 0,0 -- 0,4 20,40,80,4 – 0,8 30,21,00,8 – 1,0

Bina Nusantara Struktur Simulasi GI/G/1 Perti baan U1bMasuk sistem pd waktu ( I) Panjang antrian Waktu habis dlm antrian Waktu servis pd waktu (II) U2 tSelesai servis pd waktu (III) Waktu luang pelayanan , , , , , , , , , , , , , , , , , , ,

Bina Nusantara