目的：本研究製定八種消防模擬任務來測驗不同體能運動習慣的消防員，比較二組消防員其測驗成績的時間、心率、耗氣量之差異性，作為後續製定消防員體能訓練的參考。方法：以問卷方式調查外勤20至45歲男性消防員運動習慣，分為心肺運動習慣組及肌力運動習慣組各15名受測者，著全套防護裝備及空氣呼吸器進行八項連續模擬任務測驗，分別紀錄每項測驗所耗的時間、結束時心率及氣瓶耗氣量，最後登記總時間、總平均心率及總耗氣量，再以標準分數Z分數換算各項成績後加總得到THA分數來評估個人的整體表現，再以獨立樣本T考驗分析不同運動習慣消防員模擬任務測驗之時間、心率及耗氣量的差異，統計顯著水準定為p＜ .05，最後以線性迴歸分析測驗所得時間、心率及耗氣量和總體表現THA分數之關係。結果：以Z分數換算成績後將30名受測者分為五種體能表現：體能優秀（THA＞2）有4位，體能高於水平（2＞THA＞1）有6位，體能平均水平（.99＞THA＞- .99）有9位，體能低於水平（-1＞THA＞-2）有4位，體能待加強（THA＜-2）有7位；獨立樣本ｔ考驗分析二組受測者結果：測驗時間在負重跑步及受困者救援等二項有顯著差異，耗氣量成績在軟管拖拉、負重登梯、火場搜索及總耗氣量等四項目有顯著差異，皆心肺組優於肌力組；以線性迴歸分析各項成績與THA之相關得到耗氣量預測值最高（r²= .56，p＜ .05）且達高度相關，其次為總時間（r²= .424，p＜ .05）及平均心率（r²= .377，p＜ .05）達中度相關。結論：消防模擬任務測驗如單純測驗完成時間，結果可能為肌力組優於心肺組成績，但整體表現應考量其測驗過程的心率高低及氣瓶耗氣量，耗氣量成績和個人整體體能表現相關性最高，且整體體能表現結果為心肺組略優於肌力組，建議未來的體能訓練須考量心率及耗氣量的表現納入訓練的目標參考或是修正目前消防人員的體能訓練方式，以得到更符合實境需求的消防員體能表現。

Purpose:This study formulated eight firefighting simulation tasks to test firefighters with different physical exercise habits, and compared the differences in time, heart rate, and air consumption of the test results between the two groups of firefighters, as a reference for the subsequent development of firefighter physical training.Method: The exercise habits of male firefighters aged 20 to 45 years old were investigated by means of questionnaires. They were divided into a cardiopulmonary exercise habit group and a muscle exercise habit group with 15 subjects each. They performed eight continuous simulation tasks wearing a full set of protective clothing and air respirators. For the test, record the time spent on each test, the heart rate at the end and the gas consumption of the gas cylinder, and finally record the total time, total average heart rate and total gas consumption, and then convert the scores with the standard score Z score and add up to get the THA score To evaluate the overall performance of the individual, and then use the independent T test to analyze the differences in the time, heart rate and gas consumption of the firefighter simulation task test of different exercise habits. The statistical significance level is set at p< .05, and finally the time obtained by the Pearson correlation analysis , heart rate, gas consumption and overall performance THA scores.Results: After converting the grades by Z scores: 4 were excellent in physical fitness (THA＞2), 6 were above the level in physical fitness (2＞THA＞1), and average in physical fitness (.99＞THA＞- .99) with 9 people, 4 people with below-level physical fitness (-1＞THA＞-2), and 7 people with poor physical fitness (THA＜-2); independent t-test analysis shows that there are significant differences in the time of weight-bearing running and rescue tests for trapped people The cardiopulmonary group is better than the cardiopulmonary group, and the gas consumption in hose dragging, weight climbing, fire search and total gas consumption items are significantly different. (r= .748, p< .05) was highly correlated, total time (r= .651, p< .05) and average heart rate (r= .614, p< .05) were moderately correlated.Conclusion: In the fire simulation task test, muscle strength training is better than cardiorespiratory training if only the test time is taken, but the overall performance should consider the heart rate and gas consumption of the gas cylinder during the test. The overall result is that the cardiopulmonary group is slightly better than the muscle strength group. It is recommended that future Physical training must consider the performance of heart rate and gas consumption into the training target reference or modify the current training methods of firefighters to obtain performance that is more in line with the actual needs.

李岳勳（2022）。優化空氣呼吸器節氣訓練之研究─以台中市政府消防局第一救災救護大隊為例 [未出版碩士論文]。亞洲大學生物資訊與醫學工程學系。
林俊結（2021）。不同呼吸法對消防人員重度工作中耗氣量之影響 [未出版碩士論文]。國立體育大學運動與健康科學學院。
徐豐勝（2020）。消防模擬測驗完成時間及耗氣量與各項體能的相關性 [未出版碩士論文]。台北市之大學運動科學研究所。
凌昱昀（2021）。提升消防人員火災搶救五項連績動作成績表現的週期化訓練模組 [未出版碩士論文]。國立清華大學運動科學研究所。
黃瑛儀（2014）。探討男性消防人員火災搶救任務中空氣呼吸器利用能力之影響因子 [未出版碩士論文]。高雄醫學大學運動醫學系。
黃光哲（2017）。高雄市政府消防局消防隊員常年訓練體能測驗與戰技測驗的關係 [未出版碩士論文]。高雄醫學大學運動醫學碩士在職專班。
葉世雄（2019）。消防人員常年訓練體能測驗對使用空氣呼吸器耗氣量表現之關聯性 [未出版碩士論文]。國立體育大學運動與健康科學學院。
劉彥輝（2020）。不同年齡層消防人員基本及專項體能之研究 [未出版碩士論文]。屏東大學體育學系體育碩士專班。
劉俊佑（2018）。消防人員新式體能訓練之研究 [未出版碩士論文]。中華科技大學土木防災與管理碩士班。
顏一加（2016）。消防人員火災搶救能力與BMI值關係之研究 [未出版碩士論文]。國立臺北科技大學土木工程系土木與防災碩士班。
Abel, Mark G.; Palmer, Thomas G.; Trubee, Nick MS（2015）. Exercise Program Design for Structural Firefighters. Strength and Conditioning Journal 37(4),p 8-19. DOI: 10.1519/SSC.0000000000000123
Andrea F. Wilkinson, Alexs A. Matias, Cassandra I.K. Eddy, Edgard MKVK. Soares, Jeffery L. King, Denise L. Smith.（2020）.Physiologic strain of SCBA confidence course training compared to circuit training and live-fire training. Applied Ergonomics,
Volume 82. https://doi.org/10.1016/j.apergo.2019.102966.
Brittany S.Hollerbach, Sara A.Jahnke,Walker S.C.Poston,Craig A.Harms & Katie M. Heinrich. Examining a novel firefighter exercise training program on simulated fire ground test performance, cardiorespiratory endurance, and strength. Journal of Occupational Medicine and Toxicoloty 14. https://doi.org/10.1186/s12995-019-0232-2
Chizewski, A., Box, A., Kesler, R. M., &Petruzzello, S. J. (2021). High Intensity Functional Training (HIFT) Improves Fitness in Recruit Firefighters. International journal of environmental research and public health, 18(24). https://doi.org/10.3390/ijerph182413400
David Barr,WarrenGregson,ThomasReilly(2010).The thermal ergonomics of firefighting reviewed.Applied Ergonomics-Volume 41,161-172. https://doi.org/10.1016/j.apergo.2009.07.001.
Gendron P., Freiberger E., L. Laurencelle, F. Trudeau, C. Lajoie(2015). Greater physical fitness is associated with better air ventilation efficiency in firefighters. Applied Ergonomics, Volume 47, 229-235. https://doi.org/10.1016/j.apergo.2014.10.002.
Goris Nazari, Joy C. MacDermid, Kathryn E. Sinden, Tom J. Overend(2018). The Relationship between Physical Fitness and Simulated Firefighting Task Performance. Rehabilitation Research and Practice,vol 2018.
https://doi.org/10.1155/2018/3234176
Johnson QR, Goatcher JD, Diehl C, Lockie RG, Orr RM, Alvar B, Smith DB, Dawes JJ(2020). Heart Rate Responses during Simulated Fire Ground Scenarios among Full-Time Firefighters. Int J Exerc Sci;13(2),374-382.
Jones, L., Tan, L., Carey-Jones, S., Riddell, N., Davies, R., Brownsdon, A., Kelson, M., Williams-Thomas, R., Busse, M., Davies, M. M., & Morgan, M. P. G. (2021). Can wearable technology be used to approximate cardiopulmonary exercise testing metrics?. Perioperative medicine (London, England), 10(1). https://doi.org/10.1186/s13741-021-00180-w
Katie M. Heinrich, PhD, Vincent Spencer, BS, Nathanael Fehl, Walker S. Carlos Poston(2012). Mission Essential Fitness. Comparison of Functional Circuit Training to Traditional Army Physical Training for Active Duty Military. Military Medicine, Volume 177, Issue 10, 1125–1130. https://doi.org/10.7205/MILMED-D-12-00143
Michaelides, Marcos A; Parpa, Koulla M; Henry, Leah J; Thompson, Gerald B; Brown, Barry S(2011). Assessment of Physical Fitness Aspects and Their Relationship to Firefighters' Job Abilities. Journal of Strength and Conditioning Research, Volume 25,956-965. DOI:10.159/JSC.0b013e3181cc23ea.
Perroni, Fabrizio1, Tessitore, Antonio1; Cortis, Cristina1; Lupo, Corrado1; D'Artibale, Emanuele1; Cignitti, Lamberto2; Capranica, Laura1(2010). Energy Cost and Energy Sources During a Simulated Firefighting Activity. Journal of Strength and Conditioning Research,Volume 24,Issue 12, 3457-3463. DOI:10.1519/JSC.0b013e3181b2c7ff
Shcherbina, A., Mattsson, C. M., Waggott, D., Salisbury, H., Christle, J. W., Hastie, T., Wheeler, M. T., & Ashley, E. A. (2017). Accuracy in Wrist-Worn, Sensor-Based Measurements of Heart Rate and Energy Expenditure in a Diverse Cohort. Journal of personalized medicine, 7(2), 3. https://doi.org/10.3390/jpm7020003
Siddall,A,G. Stevenson,R, D, M. Turner,P, F, J. Stokes K,A.Bilzon, L. J. (2016). Development of role-related minimum cardiorespiratory fitness standards for firefighters and commanders. Ergonomice,59(10),1335-1343.
Doi:10.1080/00140139.2015.1135997
Smith, Denise L. Firefighter Fitness Improving Performance and Preventing Injuries and Fatalities. Current Sports Medicine Reports,Volume 10(3),167-172. doi: 10.1249/JSR.0b013e31821a9fec
Sothmann, DL Gebhardt, TA Baker,GMKastello & Sheppard VA. Performance requirements of physically strenuous occupations:validating minimum standards for muscular strength and endurance. Ergonomics,Volume 47(8),864-875.
https://doi-org.nthulib-oc.nthu.edu.tw/10.1080/0014010001670372
Stephanie W,Wolfgang S,Ansgar S,Daniel H, (2017). Relationships between strength and endurance parameters and air depletion rates in professional firefighters. Scientific reports 7. https://doi.org/10.1038/srep44590.