由於許多國家死亡率下降快速、壽命延長幅度超乎預期,加上生育率持續低於替代水準,人口老化現象愈發明顯,近年來個人生涯規劃及政府施政,都格外強調退休後經濟生活及老年相關社會資源分配的比重。以臺灣為例,行政院經濟建設委員會 (簡稱經建會) 從1990年代開始,每兩年公布一次未來的人口推估,但過去十年來經建會屢次修正歷年的推估假設,以因應生育率及死亡率變化快速,適時提醒臺灣日益加速的人口老化。正因為人口推估可能受到人口數、社會變遷、資料品質等因素,影響統計分析的可靠性,常用於國家層級的推估方法,往往無法直接套用至縣市及其以下的層級 (即小區域),使得小區域人口推估較為棘手,需要更加謹慎面對。
本文延續王信忠等人 (2012) 的研究,以小區域人口推估為目標,著重在生育率推估研究,結合隨機模型與修勻方法,尋找適合臺灣縣市層級的小區域人口推估方法。本文考量的隨機模型計有區塊拔靴法 (Block Bootstrap) 和 Lee-Carter 模型 (Lee and Carter 1992),以預測未來的生育率和死亡率,並套用年輪組成推計法 (或稱為人口要素合成法;Cohort Component Method) 及修勻 (Graduation) 方法,探討這些方法與人口規模之間的關係,評估用於小區域人口推估之可行性。
本文首先以電腦模擬,探討生育率的推估,討論是否可直接推估總生育率,類似增加樣本數的概念,取代各縣市的年齡別生育率,以取得較為穩定的推估。根據模擬結果,發現人口規模對出生數的推估沒有明顯的關係,只要使用總生育率、再結合區塊拔靴法,就足以提供穩定的推估結果。實證研究方面,以臺灣縣市層級的人口及其年齡結構 (例如:0-14歲、15-64歲、65歲以上) 為驗證對象,發現分析結果也與電腦模擬相似,發現以區塊拔靴法推估臺灣各縣市的總生育率、年齡組死亡率,其推估精確度不因人口規模而打折扣,顯示以區塊拔靴法推估總生育率、年齡組死亡率,可用於推估臺灣小地區的未來人口。 / Due to the rapid mortality reduction, prolonging human longevity is a common phenomenon and longevity risk receives more attention in 21st century. Many developed countries encounter many problems brought up by prolonging life, such as poor community infrastructure and insufficient financial pension funds for the elderly. Population Projection thus becomes essential in government planning in dealing with the population aging. However, rapid changes in mortality and fertility make the projection very tricky. It would be even more difficult to project areas with fewer populations (i.e., small areas) since it takes extra efforts to deal with the larger fluctuations in small population.
The objective of the study is to construct a standard operating procedure (SOP) for small population projection. Unlike the previous study, e.g., Wang et al. (2012), we will take both the fertility and mortality into account (but set migration aside for simplicity). First, for the fertility projection, we evaluate if total fertility rates (TFR) are more appropriate than the age-specific fertility rates for small population. Also, we compare two fertility projection methods: Lee-Carter model and block bootstrap, and check which shows better results. Based on the computer simulation, we found that TFR performs better and the block bootstrap method is more sensitive to rapid fertility changes. As for mortality rate projection, we also recommend the standard operating procedure by Wang et al. (2012). However, the smoothing methods have limited impacts on mortality projection and can be ignored.
In addition to simulation, we also apply the SOP for projecting the small population to Taiwan counties and it achieves satisfactory results. However, due to the availability of data, our method can only be used for short-term projection (at most 30 years) and these results might not apply to long-term projection. Also, similar to the previous work, the fertility rates have the larger impact on small population projection, although we think that the migration has large impact as well. In this study, only the stochastic projection is considered and we shall consider including expert opinions as the future study.
Identifer | oai:union.ndltd.org:CHENGCHI/G0099354007 |
Creators | 曹郁欣, Eunice Y. Tsao |
Publisher | 國立政治大學 |
Source Sets | National Chengchi University Libraries |
Language | 中文 |
Detected Language | English |
Type | text |
Rights | Copyright © nccu library on behalf of the copyright holders |
Page generated in 0.0029 seconds