? Post-Race Recovery Nutrition: Refueling and rehydration after races and intense training sessions to support muscle recovery.
2.5 Monitoring and Performance Analysis
Swimming can be classified as a complex task because it cannot be mastered in a single session and has multiple degrees of freedom. Learning such a complex physical activity and mastering the optimal technique for its execution depend on the continuous assessment of its performance. When it comes to complex tasks in sport, augmented extrinsic feedback has been shown to be necessary and effective for the athlete progress and development, regardless of the feedback modality. Therefore, the goal for successful coaching in swimming is clear: provide high-quality feedback concurrently or shortly after the activity on a frequent basis.
Elite open water swimmers rely on data and feedback to fine-tune their training:
? Data Tracking: Using technology such as GPS devices, heart rate monitors, and swim metrics to analyze training data.
? Performance Analysis: Regular assessments of stroke technique, race times, and fitness levels to identify areas for improvement.
? Collaboration: Working closely with coaches and sports scientists to interpret data and make necessary adjustments to training plans.
As in any other sport, swimming coaches rely mainly on their observations and coaching experience to monitor and evaluate swimmers’ performance. However, such subjective and qualitative analysis is not accurate enough to provide precise information about a swimmer’s strengths and weaknesses. The complex nature of swimming has also led the research community to study it with new tools and systems from different perspectives, such as physiology, motor control, and biomechanics. As a result, more attention has been paid to the use of sophisticated analytical systems by both researchers and coaches to obtain an objective and quantitative assessment of swimming performance. Despite all the novel analysis methods that have been proposed for swimming analysis, there is a lack of an appropriate analysis system that can help both coaches and swimmers in better performance analysis. Video-based systems, most commonly used as the gold standard in swimming, suffer primarily from shortcomings such as the time-consuming process of calibrating and digitizing landmarks, image distortion due to water reflections and air bubbles, and small capture volume in aquatic environments. In contrast, ease of use, accessibility, easy-to-understand results, and feedback are the top four priorities of coaches in an analysis system.
Training for elite open water swimming is an ongoing process of refinement and adaptation. Swimmers and their coaches must continuously assess progress and make adjustments to achieve peak performance. In the chapters that follow, we delve deeper into the specifics of technique, race strategy, mental preparation, equipment, and safety, all of which contribute to the comprehensive preparation of elite open water swimmers.
Chapter 3: Technique and Skills
3.1 Open Water Specific Techniques
Open water swimming demands specialized techniques to navigate the challenges of natural bodies of water. Elite open water swimmers must master the following skills:
? Drafting: Learning to swim closely behind or beside competitors to reduce water resistance and conserve energy, a crucial tactic for long races.
? Sighting: Developing the ability to periodically lift your head to sight landmarks or buoys, ensuring you stay on course in open water with minimal disruption to your stroke.
? Turning Buoys: Techniques for efficiently rounding buoy markers during races, including approaches and exit strategies.
? Navigation: Navigating currents, waves, and swells while maintaining course awareness during races, adapting strokes as needed.
3.2 Stroke Mechanics
Efficient stroke mechanics are essential for open water swimmers. Key considerations include:
? Freestyle Technique: A focus on the freestyle stroke as it's the primary stroke used in open water. Improving stroke efficiency through drills and practice.
? Bilateral Breathing: Developing the ability to breathe comfortably on both sides, ensuring flexibility and adaptability in race conditions.
? Rhythmic Breathing: Coordinating breaths with the natural rhythm of the stroke to maintain a smooth pace.
? Kicking Efficiency: Training the legs for a steady and efficient kick, which helps with stability and propulsion.
3.3 Starts and Turns
Elite open water swimmers must optimize their starts and turns, even though these elements are less frequent than in pool swimming:
? Race Starts: Strategies for diving off the starting platform or from the shore with minimal time and energy loss.
? Buoy Turns: Techniques for navigating buoy turns efficiently, considering positioning and drafting opportunities.
3.4 Navigating Currents and Waves
Open water conditions are often unpredictable. Elite swimmers must adapt to various water conditions, including:
? Currents: Understanding how to swim with or against currents, making necessary adjustments to stay on course.
? Waves and Swells: Techniques for swimming efficiently in choppy waters, including body positioning and stroke adjustments.
? Sighting in Challenging Conditions: Strategies for sighting in turbulent water with limited visibility.
3.5 Fine-Tuning Skills
Elite open water swimmers dedicate time to fine-tune their skills:
? Simulated Open Water Training: Incorporating open water simulation sessions in the pool or controlled environments to practice race-specific skills.
? Group Training: Training with other swimmers to simulate race scenarios, including drafting and navigation challenges.
? Underwater Skills: Developing underwater orientation skills for improved navigation and buoy turns.
