Testing

Question 1

Before going live with a hospital information system, the system should be thoroughly tested to assure that it is operating properly.

Answer 1

System Test Plan

Question 2

The system test plan consists of the following four steps:

Answer 2

Develop the overall test plan.
Create the test scripts.
Carry out the testing
Troubleshoot and system’s failings as soon as possible

Question 3

will help to define the problem(s) that the new information system is expected to address.

Answer 3

A feasibility study

Question 4

It will also answer questions regarding cost, goals, and specific outcomes.

Answer 4

A feasibility study

Question 5

are software applications, such as those commercially available or prepared by third parties, which need to be integrated into the other software of the information system.

Answer 5

Components

Question 6

completed to determine if the software meets specifications and functions properly and whether it meets interaction requirements of the system.

Answer 6

Testing

Question 7

May be tested by the developer and by the user

Answer 7

Components

Question 8

are parts of a component with predictable properties.

Answer 8

Features

Question 9

the term used to describe the addition of more and more features to a program.

Answer 9

Feature Creep

Question 10

Features may include the following

Answer 10

Management of database
Ability to generate reports.
Ability to integrate with other components of a system and scalability
E-mail and other customizable alerts.
Time keeping/login and logout times.
Communication among different levels and multisite capabilities.
Real-time processing.
Ability to establish uniform procedures.
Ability to provide feedback

Question 11

a computer program that allows two or more programs to exchange information.

Answer 11

Interface

Question 12

If the connection is direct, the interface is ______

Answer 12

Point to Point

Question 13

allows transfer of data only between two programs

Answer 13

Point to point interface

Question 14

allows information to transfer from one system to a number of different systems.

Answer 14

Interface Engine Software

Question 15

a de facto industry standard, although different vendors have different configurations.

Answer 15

Serial Peripheral Interface (SPI)

Question 16

allows master/slave communication from the master device to single or multiple slave devices

Answer 16

SPI

Question 17

full duplex and facilitates communication in both directions simultaneously.

Answer 17

SPI

Question 18

facilitate communication in both directions but only in one direction at a time.

Answer 18

Half duplex interfaces

Question 19

used to communicate with a variety of peripheral devices, such as sensors, clocks, liquid-crystal displays, universal serial bus ports, and communications

Answer 19

SPI

Question 20

human–computer/machine interface

Answer 20

User interface

Question 21

allows interaction between the user and the machine (e.g., computer, other electronic devices), permitting the user to make input and to see outputas a result.

Answer 21

User Interface

Question 22

The design of this interface must consider the needs of the user and ease of use.

Answer 22

User interface

Question 23

Current and new interfaces include:

Answer 23

Touch screens and touch user
Graphical user
Gesture
zooming
Voice user
natural language
Zero input

Question 24

Often used in simulations, the device has a combined use of input and output.

Answer 24

Touch screens and touch user

Question 25

This allows an interface between devices, such as the keyboard and computer. It includes object-oriented user interfaces as well as application-oriented interfaces.

Answer 25

Graphical user

Question 26

This allows input from gestures and mouse/stylus movements.

Answer 26

Gesture

Question 27

This allows changes in scale of output.

Answer 27

Zooming

Question 28

Input is by keystrokes or voice commands, and output is by voice commands.

Answer 28

Voice user

Question 29

This allows input by keystrokes in natural language (e.g., questions), and output is the response.

Answer 29

Natural Language

Question 30

Input derives from sensors.

Answer 30

Zero - Input

Question 31

highlighted words, icons, images

Answer 31

Links

Question 32

allow access of information at one point from a different point.

Answer 32

Links

Question 33

must be tested individually to ensure they function properly.

Answer 33

Links

Question 34

keyboards, mouse, microphone, stylus, webcams

Answer 34

Input devices

Question 35

terminals, printers, projectors, and screens

Answer 35

Output devices

Question 36

Devices can be in four different states when connected to a system:

Answer 36

Undefined
Defined
Available
Not available/ stopped

Question 37

The system does not recognize the device.

Answer 37

Undefined

Question 38

Information about a specific device is present in the database but not available to the system.

Answer 38

Defined

Question 39

Information about a device is present in the database and configured to the operating system.

Answer 39

Available

Question 40

Information about the device is present in its driver, but the device is not available.

Answer 40

Not Available/ stopped

Question 41

these should be assessed for accuracy.

Answer 41

Reports

Question 42

These reports contain data about the system itself, including hardware and software, as well as workstations and servers. May be generated by systems or data sets.

Answer 42

Configuration

Question 43

Often include built-in templates and provide fact-finding to glean information from databases.

Answer 43

Informational

Question 44

Usually are automated, showing changes that occur in the system over a period of time.

Answer 44

Change

Question 45

Usually are automated to show how the system or elements of the system compare to a baseline.

Answer 45

Baseline

Question 46

These reports show summaries of actions, processes, and data.

Answer 46

Summary/ management

Question 47

Are issued at predetermined periods, such as monthly claims reports.

Answer 47

Periodic reports

Question 48

reports are issued when faults occur or data are outside of normal parameters.

Answer 48

Error/ Exception

Question 49

have a lower power demand than CRTs or plasma displays (used primarily for large screen televisions); additionally, they are more lightweight and smaller.

Answer 49

LCD - liquid crystal display

Question 50

assessed through analysis of the internal environment (e.g., staff, physicians, board) and external environment (e.g., vendors, patients, agencies).

Answer 50

Systems environment

Question 51

Analyzed to identify trends, needs, and expectations

Answer 51

Data

Question 52

involves using software tools specifically designed to test features of an information system, such as the graphical user interface (GUI).

Answer 52

Automated Testing

Question 53

especially valuable in the types of testing that may not be practical to do manually, such as stress testing in which a system is tested with large numbers of simulated users.

Answer 53

Automated testing

Question 54

This is a form of functional testing that determines if an input results in the correct output, using test cases focused on the system’s operational profile.

Answer 54

Black box

Question 55

This type of testing does not require knowledge of code or inner product design.

Answer 55

Black box

Question 56

This introduces faults into the system to show what happens to the system when the component fails to function properly.

Answer 56

Fault Injection

Question 57

This tests the ability of the system to function after introduction of a component.

Answer 57

Operational system

Question 58

this may require a huge amount of testing to determine how the system will deal with component failures or problems.

Answer 58

Operational system

Question 59

Wrappers are used to limit the component software in some way; that is, the wrapper may check or limit input into the component or check or limit output to the system.

Answer 59

Defense building

Question 60

are often employed when commercial software is purchased that only partially meets requirements.

Answer 60

Wrappers

Question 61

part of software/hardware testing, determines if hardware or software applications can work together.

Answer 61

System Integration Testing (SIT)

Question 62

done after unit testing and before system and acceptance testing and involves testing how all the units function together.

Answer 62

System Integration Testing

Question 63

This is a type of black box testing that should not require knowledge of code or inner product design.

Answer 63

System Integration Testing

Question 64

The purpose of the testing is to identify problems or faults within the component parts (assemblages) or within the entire information system that affects performance.

Answer 64

SIT

Question 65

Approaches to integration testing include

Answer 65

Big Bang - all components
Top Bottom (higher level components)
Bottom up (lower level components)

Question 66

verifies that a code is functioning properly and determines if users are able to carry out certain functions or whether features in the software work as expected.

Answer 66

Functional testing

Question 67

may include manipulating data, conducting searches, using user commands, and accessing user screens

Answer 67

Functional testing

Question 68

also conducted as part of functional testing.

Answer 68

Integration testing

Question 69

should be completed on units during development and on the system as a whole after integration.

Answer 69

Functional testing

Question 70

should also be conducted from the perspective of the end-user, so functional tests should always be designed to correspond to end-user requirements.

Answer 70

Functional testing

Question 71

should be able to identify system level faults and problems.

Answer 71

Functional Testing

Question 72

a type of nonfunctional reliability testing that evaluates the system’s ability to function under different loads, such as during normal use times and peak times with multiple users to determine maximum capacity and problems that might be encountered.

Answer 72

Load or Volume testing

Question 73

involves evaluating the effect of volume on the system to determine limits.

Answer 73

Volume testing

Question 74

Testing tries to determine at which exact point problems arise.

Answer 74

Volume testing

Question 75

should always be concluded before a system becomes live to prevent crashes and loss of data if limits are exceeded.

Answer 75

Volume testing

Question 76

essential because incorrect data can lead to serious problems with the system and provide false information.

Answer 76

Validating data integration across disparate systems

Question 77

completed after integration testing and involves testing the system as a whole to determine if it meets requirements, functions as needed, and meets expected outcomes.

Answer 77

performance effectiveness

Question 78

Testing is completed to ensure that the system is in compliance with the ADA requirements.

Answer 78

Accessibility testing

Question 79

This type of exploratory testing is usually done once, and the user attempts to identify problems in an unstructured way by trying various means to elicit errors.

Answer 79

Ad hoc testing

Question 80

This is essentially a form of error guessing in which the user bases testing on previous experience with software.

Answer 80

Ad Hoc testing

Question 81

This may include certification testing to determine if the application functions properly in a target operating system or database.

Answer 81

Compatibility testing

Question 82

focusing on user experience, can encompass a wide range of tests, such as testing the system in different web browsers, evaluating the bandwidth handling capacity, determining if peripherals (e.g., printers) function properly, evaluating the function of tools (e.g., messaging), and testing access to databases.

Answer 82

Compatibility testing

Question 83

This type of error testing is done to determine if there are errors resulting from incorrect programming, coding, or resource failures, how the system responds, and whether errors result in negative effects, such as corrupted data

Answer 83

Exception handling testing

Question 84

may involve hardware and software.

Answer 84

Exception handling

Question 85

This type of testing uses the results of previous testing to determine the types of additional testing indicated, based on user experience, and does not follow a specified pattern of testing.

Answer 85

Exploratory testing

Question 86

This may be done after conclusion of other tests to verify that no significant defects remain.

Answer 86

Exploratory testing

Question 87

allows users to interact with devices through the use of images, such as icons, rather than text, must be tested to ensure it meets specifications.

Answer 87

Graphical user interface (GUI)

Question 88

This tests the procedures needed to install, uninstall, and upgrade applications.

Answer 88

Installation testing

Question 89

This testing is done to identify problems requiring maintenance with equipment or applications or to evaluate the effectiveness of repairs.

Answer 89

Maintenance testing

Question 90

often done on software already in use when it is changed in some way or installed in other hardware.

Answer 90

Maintenance testing

Question 91

This involves purposely crashing the system and evaluating the system’s ability to recover.

Answer 91

Recovery testing

Question 92

Techniques include restarting the computer in the middle of an action, unplugging the device during data retrieval, and restarting a browser after accessing a number of different windows to determine if memory and access to the windows remain intact after restarting.

Answer 92

Recovery testing

Question 93

This tests the system after a change, such as installation of a patch or a change in configuration, to determine if the change has introduced faults into the system.

Answer 93

Regression testing

Question 94

This is rapid run-through testing to determine if results seem reasonable and the system appears to work correctly.

Answer 94

Sanity testing

Question 95

testing may be done during development and before more rigorous testing to find obvious faults.

Answer 95

Sanity Testing

Question 96

This tests the ability of the system to function under increasing loads (scaling up) or under increasing nodes (scaling out), such as adding computers or servers to the system.

Answer 96

Scalability testing

Question 97

This testing is done to determine if data security is adequate in protecting confidentiality.

Answer 97

Security testing

Question 98

tests authentications, access controls, availability of information, and nonrepudiation (ensuring a record remains of messages sent and received).

Answer 98

Security testing

Question 99

This involves attaching an electronic device to power and observing the result (“smoke”).

Answer 99

Smoke/ power on testing

Question 100

identifies overloads or overheating.

Answer 100

Smoke/ power on testing

Question 101

These tests are used to determine the ability of the system to perform under specified workloads.

Answer 101

Software Performance

Question 102

testing may include load testing, stress testing to determine upper limits, endurance testing to determine the length of time a system can function under an anticipated load, spike testing to determine if the system can function with a sudden dramatic increase in load, configuration testing to determine if the system functions with changes in configuration, and isolation testing to repeat tests that resulted in failures or system problems.

Answer 102

Software performance

Question 103

This tests the ability of end-users to use the system and applications adequately.

Answer 103

Usability testing

Question 104

activities encompass both the hardware and software aspects of keeping the system “caught up” in terms of maintenance.

Answer 104

System maintenance

Question 105

Specific system maintenance tasks include:

Answer 105

Troubleshooting hardware and software problems.
Keeping an adequate supply of replacement hardware (e.g., printers, cables, and monitors) and consumables (e.g., toner and ink cartridges).
Performing system back up procedures according to a predefined schedule.
Making sure the system has enough storage capacity.
Applying system upgrades and software patches.
Making sure disaster recovery plan is in place and ready for implementation.

Question 106

Type of architecture, downtime necessary for maintenance, standards for connectivity, environments for testing, response times, and supporting technologies.

Answer 106

Technical criteria

Question 107

Security standards, data standards, options for storage, capabilities related to providing reports, integration with health information exchanges.

Answer 107

General/ managerial criteria

Question 108

Correct client identification with unique identifiers across multiple registration sites and ability to track client’s location and use of services.

Answer 108

Registration

Question 109

Indicates details about orders, provides notification of duplicate orders, produces audit trail, supports documentation, generates claims, provides clinical decision support, and displays results.

Answer 109

Computerized physician order entry reporting

Question 110

Pulls documentation (e.g., claims) from various departments.

Answer 110

Integrated Documentation

Question 111

Appointments, testing, and procedures.

Answer 111

Scheduling

Question 112

Provides automatic coding.

Answer 112

Medical Records

Question 113

Provides summaries, insurance information, and charges.

Answer 113

Billing

Question 114

may result in the hardware freezing or software malfunctioning. I

Answer 114

System Failure

Question 115

Common causes of system failure include

Answer 115

user/operator error, power disruptions/disconnections, overheating, and equipment malfunction or failure.