The intended use of this guide is to provide practical assistance in the development of an optimized sampling design. This standard describes or discusses:
Sampling design selection criteria,
Factors impacting the choice of a sampling design,
Selection of a sampling design,
Techniques for optimizing candidate designs, and
The criteria for evaluating an optimized sampling design.
Within a formal USEPA data generation activity, the planning process or Data Quality Objectives (DQO) development is the first step. The second and third are the implementation of the sampling and analysis design and the data quality assessment. Within the DQO planning process, the selection and optimization of the sampling design is the last step, and therefore, the culmination of the DQO process. The preceding steps in the DQO planning process address:
The problem that needs to be addressed,
The possible decisions,
The data input and associated activities,
The boundaries of the study,
The development of decision rules, and
The specified the limits on decision error.
This guide is not intended to address the aspects of the planning process for development of the project objectives. However, the project objectives must be outlined and communicated to the design team, prior to the selection and optimization of the sample design.
This guide references statistical aspects of the planning and implementation process and includes an appendix for the statistical calculation of the optimum number of samples for a given sampling design.
This guide is intended for those who are responsible for making decisions about environmental waste management activities.
Область применения1.1 This document provides practical guidance on the selection and optimization of sample designs in waste management sampling activities, within the context of the requirements established by the data quality objectives or other planning process.
1.2 This document (1) provides guidance for selection of sampling designs; (2) outlines techniques to optimize candidate designs; and (3) describes the variables that need to be balanced in choosing the final optimized design.
1.3 The contents of this guide are arranged by section as follows:
1.Scope 2.Referenced Documents 3.Terminology 4.Significance and Use 5.Summary of Guide 6.Factors Affecting Sampling Design Selection 6.1Sampling Design Performance Characteristics 6.2Regulatory Considerations 6.3Project Objectives 6.4Knowledge of the Site 6.5Physical Sample Issues 6.6Communication with the Laboratory 6.7Analytical Turn Around Time 6.8Analytical Method Constraints 6.9Health and Safety 6.10Budget/Cost Considerations 6.11Representativeness 7.Initial Design Selection 8.Optimization Criteria 9.Optimization Process 9.2Practical Evaluation of Design Alternatives 9.3Statistical and Cost Evaluation 10.Final Selection Annex A1Types of Sampling Designs A1.1Commonly Used Sampling Designs A1.2Sampling Design Tools A1.3Combination Sample Designs Appendix X1. Additional References Appendix X2. Choosing Analytical Method Based on Variance and Cost Appendix X3. Calculating the Number of Samples: A Statistical Treatment1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.