Teradata Moving Average Forecasting

Core Capabilities

• Advanced UAF implementation with optimized array processing
• Scalable time series analysis for millions of products or billions of IoT sensors
• High-dimensional data support for complex analytical use cases
• Production-ready SQL generation with proper UAF syntax
• Comprehensive error handling and data validation
• Business-focused interpretation of analytical results
• Integration with UAF pipeline workflows

Unbounded Array Framework (UAF) Overview

The Unbounded Array Framework is Teradata's analytics framework for:

• End-to-end time series forecasting pipelines
• Digital signal processing for radar, sonar, audio, and video
• 4D spatial analytics and image processing
• Scalable analysis of high-dimensional data
• Complex use cases across multiple industries

UAF functions process:

• One-dimensional series indexed by time or space
• Two-dimensional arrays (matrices) indexed by time, space, or both
• Large datasets with robust scalability

Table Analysis Workflow

This skill automatically analyzes your time series data to generate optimized UAF workflows:

1. Time Series Structure Analysis

• Temporal Column Detection: Identifies time/date columns for indexing
• Value Column Classification: Distinguishes between numeric time series values
• Frequency Analysis: Determines sampling frequency and intervals
• Seasonality Detection: Identifies seasonal patterns and cycles

2. UAF-Specific Recommendations

• Array Dimension Setup: Configures proper 1D/2D array structures
• Time Indexing: Sets up appropriate temporal indexing
• Parameter Optimization: Suggests optimal parameters for TD_MOVAVG_FORECAST
• Pipeline Integration: Recommends complementary UAF functions

3. SQL Generation Process

• UAF Syntax Generation: Creates proper Unbounded Array Framework SQL
• Array Processing: Handles time series arrays and matrices
• Parameter Configuration: Sets function-specific parameters
• Pipeline Workflows: Generates complete analytical pipelines

How to Use This Skill

1. Provide Your Time Series Data:

   "Analyze time series table: database.sensor_data with timestamp column and value columns"
   

2. The Skill Will:

   • Analyze temporal structure and sampling frequency
   • Identify optimal UAF function parameters
   • Generate complete TD_MOVAVG_FORECAST workflow
   • Provide performance optimization recommendations

Input Requirements

Data Requirements

• Time series table: Teradata table with temporal data
• Timestamp column: Time/date column for temporal indexing
• Value columns: Numeric columns for analysis
• Regular sampling: Consistent time intervals (recommended)
• Sufficient history: Adequate data points for reliable analysis

Technical Requirements

• Teradata Vantage with UAF (Unbounded Array Framework) enabled
• UAF License: Access to time series and signal processing functions
• Database permissions: CREATE, DROP, SELECT on working database
• Function access: TD_MOVAVG_FORECAST

Output Formats

Generated Results

• UAF-processed arrays with temporal/spatial indexing
• Analysis results specific to TD_MOVAVG_FORECAST functionality
• Analytical outputs from function execution
• Diagnostic metrics and validation results

SQL Scripts

• Complete UAF workflows ready for execution
• Parameterized queries optimized for your data structure
• Array processing with proper UAF syntax

Uaf Time Series Use Cases Supported

1. Smoothed forecasting: Advanced UAF-based analysis
2. Trend following: Advanced UAF-based analysis
3. Simple predictions: Advanced UAF-based analysis
4. Baseline modeling: Advanced UAF-based analysis

Key Parameters for TD_MOVAVG_FORECAST

• WindowSize: Function-specific parameter for optimal results
• ForecastPeriods: Function-specific parameter for optimal results
• WeightingScheme: Function-specific parameter for optimal results

UAF Best Practices Applied

• Array dimension optimization for performance
• Temporal indexing with proper time series structure
• Parameter tuning specific to TD_MOVAVG_FORECAST
• Memory management for large-scale data processing
• Error handling for UAF-specific scenarios
• Pipeline integration with other UAF functions
• Scalability considerations for production workloads

Example Usage

-- Example TD_MOVAVG_FORECAST workflow
-- Replace parameters with your specific requirements

-- 1. Data preparation for UAF processing
SELECT * FROM TD_UNPIVOT (
    ON your_database.your_timeseries_table
    USING
    TimeColumn ('timestamp_col')
    ValueColumns ('value1', 'value2', 'value3')
) AS dt;

-- 2. Execute TD_MOVAVG_FORECAST
SELECT * FROM TD_MOVAVG_FORECAST (
    ON prepared_data
    USING
    -- Function-specific parameters
    -- (Detailed parameters provided by skill analysis)
) AS dt;

Scripts Included

Core UAF Scripts

• uaf_data_preparation.sql: UAF-specific data preparation
• td_movavg_forecast_workflow.sql: Complete TD_MOVAVG_FORECAST implementation
• table_analysis.sql: Time series structure analysis
• parameter_optimization.sql: Function parameter tuning

Integration Scripts

• uaf_pipeline_template.sql: Multi-function UAF workflows
• performance_monitoring.sql: UAF execution monitoring
• result_interpretation.sql: Output analysis and visualization

Industry Applications

Supported Domains

• Economic forecasting and financial analysis
• Sales forecasting and demand planning
• Medical diagnostic image analysis
• Genomics and biomedical research
• Radar and sonar analysis
• Audio and video processing
• Process monitoring and quality control
• IoT sensor data analysis

Limitations and Considerations

• UAF licensing: Requires proper Teradata UAF licensing
• Memory requirements: Large arrays may require memory optimization
• Computational complexity: Some operations may be resource-intensive
• Data quality: Results depend on clean, well-structured time series data
• Parameter sensitivity: Function performance depends on proper parameter tuning
• Temporal consistency: Irregular sampling may require preprocessing

Quality Checks

Automated Validations

• Time series structure verification
• Array dimension compatibility checks
• Parameter validation for TD_MOVAVG_FORECAST
• Memory usage monitoring
• Result quality assessment

Manual Review Points

• Parameter selection appropriateness
• Result interpretation accuracy
• Performance optimization opportunities
• Integration with existing workflows

Updates and Maintenance

• UAF compatibility: Tested with latest Teradata UAF releases
• Performance optimization: Regular UAF-specific optimizations
• Best practices: Updated with UAF community recommendations
• Documentation: Maintained with latest UAF features
• Examples: Real-world UAF use cases and scenarios

This skill provides production-ready uaf time series analytics using Teradata's Unbounded Array Framework TD_MOVAVG_FORECAST with industry best practices for scalable time series and signal processing.