A Practical Guide to SysML: The Systems Modeling Language

Paperback (Print)
Used and New from Other Sellers
Used and New from Other Sellers
from $24.75
Usually ships in 1-2 business days
(Save 62%)
Other sellers (Paperback)
  • All (5) from $24.75   
  • New (3) from $50.00   
  • Used (2) from $24.75   
Close
Sort by
Page 1 of 1
Showing All
Note: Marketplace items are not eligible for any BN.com coupons and promotions
$50.00
Seller since 2014

Feedback rating:

(149)

Condition:

New — never opened or used in original packaging.

Like New — packaging may have been opened. A "Like New" item is suitable to give as a gift.

Very Good — may have minor signs of wear on packaging but item works perfectly and has no damage.

Good — item is in good condition but packaging may have signs of shelf wear/aging or torn packaging. All specific defects should be noted in the Comments section associated with each item.

Acceptable — item is in working order but may show signs of wear such as scratches or torn packaging. All specific defects should be noted in the Comments section associated with each item.

Used — An item that has been opened and may show signs of wear. All specific defects should be noted in the Comments section associated with each item.

Refurbished — A used item that has been renewed or updated and verified to be in proper working condition. Not necessarily completed by the original manufacturer.

New
Brand new.

Ships from: acton, MA

Usually ships in 1-2 business days

  • Standard, 48 States
  • Standard (AK, HI)
$76.80
Seller since 2011

Feedback rating:

(7)

Condition: New
2009 Paperback New Book New and in stock. 1/10/2009. *****PLEASE NOTE: This item is shipping from an authorized seller in Europe. In the event that a return is necessary, you ... will be able to return your item within the US. To learn more about our European sellers and policies see the BookQuest FAQ section***** Read more Show Less

Ships from: Morden, United Kingdom

Usually ships in 1-2 business days

  • Canadian
  • International
  • Standard, 48 States
  • Standard (AK, HI)
$80.00
Seller since 2014

Feedback rating:

(149)

Condition: New
Brand new.

Ships from: acton, MA

Usually ships in 1-2 business days

  • Standard, 48 States
  • Standard (AK, HI)
Page 1 of 1
Showing All
Close
Sort by

Overview

Until now, little consolidated information has been available on the market regarding SysML. However, this book changes all that! It provides new users with a comprehensive guide to SysML, including a full description of the language itself and detailed instructions on how to implement it. Exercises help readers gain practical experience working with SysML and extensive, real-world examples of actual successful projects demonstrate all the benefits the language can provide.
Read More Show Less

Editorial Reviews

From the Publisher
"SysML is the new industry-standard language designed specifically to support modern systems engineering. I cannot imagine a better way to learn SysML than to read about it from the masters: Friedenthal, Moore, and Steiner led the design of this important new language and now cap that effort with this comprehensive and highly readable guide for both novices and experts."

-Bran Selic, Malina Software Corporation

"This book is just the ticket you need to get started on the road to adopting standards-based, model-based systems engineering (MBSE) methods. The authors have done an outstanding job in providing detailed coverage of the SysML language and semantics supported through worked examples."

-Jeff Estefan, Principal Engineer, NASA's Jet Propulsion Laboratory

"The authors of this book have been invovlded in SysML development since its inception, and have the understanding necessary to explain it clearly. In particular, the activity diagrams chapter accurately and concisely describes the SysML extensions to UML for functional flow modeling."

-Conrad Bock, OMG Lead for Activity Modeling in SysML

Read More Show Less

Product Details

  • ISBN-13: 9780123786074
  • Publisher: Elsevier Science
  • Publication date: 9/3/2009
  • Series: MK/OMG Press Series
  • Edition description: Revised Printing
  • Pages: 576
  • Product dimensions: 7.50 (w) x 9.20 (h) x 1.30 (d)

Meet the Author

Sanford Friedenthal is a Principal Systems Engineer at Lockheed Martin. He has been an advocate for model-based systems engineering and a leader of the industry team that developed SysML from its inception through its adoption by the OMG.

Alan Moore is an Architecture Modeling Specialist at The MathWorks. He has extensive experience in the development of real-time and object-oriented methodologies and their application. Alan was co-chair of the OMG's Real-time Analysis and Design Working Group and served as the language architect during the development of SysML.

Rick Steiner is an Engineering Fellow at Raytheon. He has been a key contributor to the definition and development of the SysML specification, particularly in the area of allocation and requirements.

Read More Show Less

Read an Excerpt

A Practical Guide to SysML

The Systems Modeling Language
By Sanford Friedenthal Alan Moore Rick Steiner

MORGAN KAUFMANN

Copyright © 2012 Elsevier Inc.
All right reserved.

ISBN: 978-0-12-385207-6


Chapter One

Systems Engineering Overview

The Object Management Group's OMG Sys™ is a general-purpose graphical modeling language for representing systems that may include combinations of hardware, software, data, people, facilities, and natural objects. SysML supports the practice of model-based systems engineering (MBSE) that is used to develop system solutions in response to complex and often technologically challenging problems.

This chapter introduces the systems engineering approach independent of modeling concepts to set the context for how SysML is used. It describes the motivation for systems engineering, introduces the systems engineering process, and then describes a simplified automobile design example to highlight how complexity is addressed by the process. This chapter also summarizes the role of standards, such as SysML, to help codify the practice of systems engineering.

The next three chapters in Part I introduce model-based systems engineering, and provide an overview of SysML, and a partial SysML model of the automobile design example introduced in this chapter.

1.1 MOTIVATION FOR SYSTEMS ENGINEERING

Whether it is an advanced military aircraft, a hybrid vehicle, a cell phone, or a distributed information system, today's systems are expected to perform at levels undreamed of a generation ago. Competitive pressures demand that the systems leverage technological advances to provide continuously increasing capability at reduced costs and within shorter delivery cycles. The increased capability drives requirements for increased functionality, interoperability, performance, reliability, and smaller size.

The interconnectivity among systems also places increased demands on systems. Systems can no longer be treated as stand-alone, but behave as part of a larger whole that includes other systems as well as humans. Systems are expected to support many different uses as part of an interconnected system of systems (SoS). These uses drive evolving requirements that may not have been anticipated when the system was originally developed. An example is how the interconnectivity provided by email and smart phones impacts the requirements on our day-to-day activities. Clearly, email and the use of smart phones can result in unanticipated requirements on us, the users of these technologies, and affect who we communicate with, how often, and how we respond. The same is true for interconnected systems.

The practices to develop systems must support these increasing demands. Systems engineering is an approach that has been dominant in the aerospace and defense industry to provide system solutions to technologically challenging and mission-critical problems. The solutions often include hardware, software, data, people, and facilities. Systems engineering practices have continued to evolve to address the increasing complexity of today's systems, which is not limited to aerospace and defense systems. As a result, the systems engineering approach has been gaining broader recognition and acceptance across other industries such as automotive, telecommunications, and medical equipment, to name a few.

1.2 THE SYSTEMS ENGINEERING PROCESS

A system consists of a set of elements that interact with one another, and can be viewed as a whole that interacts with its external environment. Systems engineering is a multidisciplinary approach to develop balanced system solutions in response to diverse stakeholder needs. Systems engineering includes the application of both management and technical processes to achieve this balance and mitigate risks that can impact the success of the project. The systems engineering management process is applied to ensure that development cost, schedule, and technical performance objectives are met. Typical management activities include planning the technical effort, monitoring technical performance, managing risk, and controlling the system technical baseline. The systems engineering technical processes are applied to specify, design, and verify the system to be built. The practice of systems engineering is not static, but continues to evolve to deal with increasing demands.

A simplified view of the systems engineering technical processes is shown in Figure 1.1. The System Specification and Design process is used to specify the system requirements and allocate the component requirements to meet stakeholder needs. The components are then designed, implemented, and tested to ensure that they satisfy their requirements. The System Integration and Test process includes activities to integrate the components into the system and verify that the system requirements are satisfied. These processes are applied iteratively throughout the development of the system, with ongoing feedback between the different processes. In more complex applications, there are multiple levels of system decomposition beginning at an enterprise or SoS level. In those cases, variants of this process are applied recursively to each intermediate level of the design down to the level at which the components are purchased or built.

The System Specification and Design process in Figure 1.1 includes the following activities to provide a balanced system solution that addresses the diverse stakeholders' needs:

* Elicit and analyze stakeholder needs to understand the problem to be solved, the goals the system is intended to support, and the effectiveness measures needed to evaluate how well the system supports the goals

* Specify the required system functionality, interfaces, physical and performance characteristics, and other quality characteristics to support the goals and effectiveness measures

* Synthesize alternative system solutions by partitioning the system design into components that can satisfy the system requirements

* Perform trade-off analysis to evaluate and select a preferred solution that satisfies system requirements and provides the optimum balance to achieve the overall effectiveness measures

* Maintain traceability from the system goals to the system and component requirements and verification results to ensure that requirements and stakeholder needs are addressed

1.3 TYPICAL APPLICATION OF THE SYSTEMS ENGINEERING PROCESS

The System Specification and Design process can be illustrated by applying this process to an automobile design. A multidisciplinary systems engineering team is responsible for executing this process. The participants and roles of a typical systems engineering team are discussed in Section 1.4.

The team must first identify the stakeholders and analyze their needs. Stakeholders include the purchaser of the car and the users of the car. In this example, the user includes the driver and the passengers. Each of their needs must be addressed. Stakeholder needs further depend on the particular market segment, such as a family car versus a sports car versus a utility vehicle. For this example, we assume the automobile is targeted toward a typical mid-career individual who uses the car for his or her daily transportation needs.

In addition, a key tenet of systems engineering is to address the needs of other stakeholders who may be impacted throughout the system life cycle, so additional stakeholders include the manufacturers that produce the automobile and those who maintain the automobile. Each of their concerns must be addressed to ensure a balanced life-cycle solution. Less obvious stakeholders are governments that express their needs via laws and regulations. Clearly, each stakeholder's concern is not of equal importance to the development of the automobile, and therefore stakeholder concerns must be properly weighted. Analysis is performed to understand the needs of each stakeholder, and define relevant effectiveness measures with target values. The target values are used to bound the solution space, to evaluate the alternatives, and to discriminate the solution from competitor solutions. In this example, the effectiveness measures may relate to the primary goal for addressing the transportation needs such as performance, comfort, fuel economy, range between refills or recharge, safety, reliability, repair time, purchase cost, environmental impact, and other important but difficult to quantify measures such as aesthetic qualities.

The system requirements are specified to address stakeholder needs and associated effectiveness measures. This begins with a definition of the system boundary so that clear interfaces can be established between the system and external systems and users as shown in Figure 1.2. In this example, the driver and passengers (not shown) are external users who interact with the automobile. The gas pump and maintenance equipment (not shown) are examples of external systems that the vehicle interacts with. In addition, the vehicle interacts with the physical environment such as the road. All of these external systems, users, and the physical environment must be specified to clearly demarcate the system boundary and its associated interfaces.

The functional requirements for the automobile are specified by analyzing what the system must do to support its overall goals. This vehicle must perform functions related to accelerating, braking, and steering, and many additional functions to address driver and passenger needs. The functional analysis identifies the inputs and outputs for each function. As shown in the example in Figure 1.3, the functional requirement to accelerate the automobile requires an acceleration input from the driver and produces outputs that correspond to the automobile forces and the speedometer reading for the driver. The functional requirements analysis also includes specifying the sequence and ordering of the functions.

Functional requirements must also be evaluated to determine the required level of performance. As indicated in Figure 1.4, the automobile is required to accelerate from 0 to 60 miles per hour (mph) in less than 8 seconds under specified conditions. Similar performance requirements can be specified for stopping distance from 60 to 0 mph and for steering requirements such as the turning radius.

Additional requirements are specified to address the concerns of each stakeholder. Example requirements include specifying riding comfort, fuel efficiency, reliability, maintainability, safety, and emissions. Physical characteristics, such as maximum vehicle weight, may be derived from the performance requirements, or maximum vehicle length may be dictated by other concerns such as standard parking space dimensions. The system requirements must be clearly traceable to stakeholder needs and validated to ensure that the requirements address their needs. The early and ongoing involvement of representative stakeholders in this process is critical to the success of the overall development effort.

(Continues...)



Excerpted from A Practical Guide to SysML by Sanford Friedenthal Alan Moore Rick Steiner Copyright © 2012 by Elsevier Inc.. Excerpted by permission of MORGAN KAUFMANN. All rights reserved. No part of this excerpt may be reproduced or reprinted without permission in writing from the publisher.
Excerpts are provided by Dial-A-Book Inc. solely for the personal use of visitors to this web site.

Read More Show Less

Table of Contents

Pt. I Introduction 1

Ch. 1 Systems Engineering Overview 3

Ch. 2 Model-Based Systems Engineering 15

Ch. 3 SysML Language Overview 29

Pt. II Language Description 61

Ch. 4 SysML Language Architecture 63

Ch. 5 Organizing the Model with Packages 79

Ch. 6 Modeling Structure with Blocks 95

Ch. 7 Modeling Constraints with Parametrics 149

Ch. 8 Modeling Flow-Based Behavior with Activities 171

Ch. 9 Modeling Message-Based Behavior with Interactions 215

Ch. 10 Modeling Event-Based Behavior with State Machines 241

Ch. 11 Modeling Functionality with Use Cases 269

Ch. 12 Modeling Text-Based Requirements and Their Relationship to Design 283

Ch. 13 Modeling Cross-Cutting Relationships with Allocations 307

Ch. 14 Customizing SysML for Specific Domains 335

Pt. III Modeling Examples 357

Ch. 15 Water Distiller Example Using Functional Analysis 359

Ch. 16 Residential Security System Example Using the Object-Oriented Systems Engineering Method 397

Pt. IV Transitioning to Model-Based Systems Engineering 487

Ch. 17 Integrating SysML into a Systems Development Environment 489

Ch. 18 Deploying SysML into an Organization 509

App SysML Reference Guide 517

References 543

Index 545

Read More Show Less

Customer Reviews

Be the first to write a review
( 0 )
Rating Distribution

5 Star

(0)

4 Star

(0)

3 Star

(0)

2 Star

(0)

1 Star

(0)

Your Rating:

Your Name: Create a Pen Name or

Barnes & Noble.com Review Rules

Our reader reviews allow you to share your comments on titles you liked, or didn't, with others. By submitting an online review, you are representing to Barnes & Noble.com that all information contained in your review is original and accurate in all respects, and that the submission of such content by you and the posting of such content by Barnes & Noble.com does not and will not violate the rights of any third party. Please follow the rules below to help ensure that your review can be posted.

Reviews by Our Customers Under the Age of 13

We highly value and respect everyone's opinion concerning the titles we offer. However, we cannot allow persons under the age of 13 to have accounts at BN.com or to post customer reviews. Please see our Terms of Use for more details.

What to exclude from your review:

Please do not write about reviews, commentary, or information posted on the product page. If you see any errors in the information on the product page, please send us an email.

Reviews should not contain any of the following:

  • - HTML tags, profanity, obscenities, vulgarities, or comments that defame anyone
  • - Time-sensitive information such as tour dates, signings, lectures, etc.
  • - Single-word reviews. Other people will read your review to discover why you liked or didn't like the title. Be descriptive.
  • - Comments focusing on the author or that may ruin the ending for others
  • - Phone numbers, addresses, URLs
  • - Pricing and availability information or alternative ordering information
  • - Advertisements or commercial solicitation

Reminder:

  • - By submitting a review, you grant to Barnes & Noble.com and its sublicensees the royalty-free, perpetual, irrevocable right and license to use the review in accordance with the Barnes & Noble.com Terms of Use.
  • - Barnes & Noble.com reserves the right not to post any review -- particularly those that do not follow the terms and conditions of these Rules. Barnes & Noble.com also reserves the right to remove any review at any time without notice.
  • - See Terms of Use for other conditions and disclaimers.
Search for Products You'd Like to Recommend

Recommend other products that relate to your review. Just search for them below and share!

Create a Pen Name

Your Pen Name is your unique identity on BN.com. It will appear on the reviews you write and other website activities. Your Pen Name cannot be edited, changed or deleted once submitted.

 
Your Pen Name can be any combination of alphanumeric characters (plus - and _), and must be at least two characters long.

Continue Anonymously

    If you find inappropriate content, please report it to Barnes & Noble
    Why is this product inappropriate?
    Comments (optional)