成本效益分析 評估技術

1. 成本效益分析 評估技術

2. 社會折現率 • 折現乃反應社會大眾對時間偏好之選擇 • 一般多偏好近期消費，此可由時間偏好之邊際率予以表達 (Marginal rate of time preference, MRTP) • 就計畫投資而言，折現亦為反映投資的時序偏好，此可由投資報酬之邊際率予以表達 (Marginal rate of investment return)

3. 跨期考量 • We have tended to discuss only short term investment analyses (e.g. 5 yrs) • What about effects in distant future? • Called intergenerational effects • Economists agree that discounting should be done for public projects • Do not agree on positive discount rate

4. 範例 • Someone offers you choice of $1000 now and $1200 in one year • If you have no preference (indifferent) then your MRTP is 20%

5. 折現考量 • 折現之偏好選擇亦往往反映於對跨世代效益之取捨 • Higher the discount rate, the less future values will count compared to today • 就社會道德而言，跨世代間應無取捨差異 • Implies there is no justification for discounting across long time periods • 復稱「平等對待」

6. 範例︰環境取捨 • Discussions ongoing about how best to manage global CO2 emissions to limit effects of global change • Should we sacrifice short-run economic growth to do something to improve environment and leave resources for the future? • Really asking 2 separate questions!

7. 折現課題 • 對後代之責任為何？是否需犧牲其利益？ • 若需犧牲，如何將淨效益極大化？ • So we should compare global change proposals with alternatives • Perhaps higher R&D spending on science or medicing would have higher benefits!

8. 實證 • Cropper et al surveyed 3000 homes • Asked about saving lives in the future • Found a 4% discount rate for lives 100 years per now • Equal standing does not imply different generations have equal claims to present resources! • Harsanyi says only do so if their marginal gain is higher than our loss

9. 實證 • If future generations will be better off than us anyway • Then we might have no reason to make additional sacrifices • 世代或社群間確無「公平對待」之現象 • Immediate relatives vs. distant relatives • Different discount rates over time • Why do we care so much about future and ignore some present needs (poverty)

10. 評估種類︰評價觀點 • Valuations can be put on either stocks or flows • 使用價值 • 非使用價值 • （選擇）權值

11. 經濟價值來源 使用價值 非使用價值 選擇權值 直接使用資源所導引的效益 • 來自於非直接接觸或使用所產生的效益；復稱存在價值。 其計算觀點乃根基於 • 真實價值 • 遺贈觀點 基於資訊或彈性而得以將資源留用於後期所產生的效益

12. 經濟價值範例

13. 經濟價值範例 The analyst should be sure that the values to be counted are not mutually exclusive or that they are not already captured by other value components.

14. 評價方法 顯示性偏好 (Observed Behavior) 敘述性偏好(Hypothetical) The analyst uses actual behaviour to recover the consumer’s preferences, and then uses this information to work out money measures of the consumer’s welfare changes. The analyst uses information that is based on what the consumer states when directly asked to express his value judgement.

15. 評價方法 REVEALED PREFERENCES (Observed Behavior) STATED PREFERENCES(Hypothetical) • Direct • Market Price • Simulated Markets • Indirect • Travel Cost • Hedonic Property Values • Hedonic Wage Values • Avoidance Expenditures • Direct • Contingent Valuation • Indirect • Contingent Ranking

16. 直接表達顯示偏好 • Examples • Medical costs for increased Asthma treatment due to air pollution • Lost income to fishermen, from oil spill. • Issues • Scientific uncertainty • Example: identifying relationship between pollution and health (without being able to do controlled experiments).

17. 間接表達顯示偏好 • Cannot directly observe the cost of pollution • Might be able to infer those costs, from market behavior • Avoidance Expenditures • Hedonic Property Values • Hedonic Wage Values • Travel Cost

18. 避免損壞之成本估算法 • 此如特定地區之地下水遭汙染，則其不飲用地下水的成本為何？ • 如有三種不飲用方案，分為︰ • 瓶裝水 • 煮沸水 • 淨水器 • 由三種方案可估算因環境衝擊之所衍生的社會成本增益或效益抑減

19. 特徵與旅行成本法 • 旅行成本法: 經由用路人之實際旅運成本計算，以推估其至某一特定目的地的需求曲線 • 特徵價格法: 經由比較不同方案之特徵上的差異，以推估需求曲線. • Derive demand for the environmental good. • House prices influenced by environmental amenity (e.g. noise) • Wages influenced by riskiness of job

20. 旅行成本法之優點 • Site is primarily valuable to people as a recreational site. There are no endangered species or other highly unique qualities that would make non-use values for the site significant. • The expenditures for projects to protect the site are relatively low. Thus, using a relatively inexpensive method like travel cost makes the most sense. • Relatively simple compared to other methods

21. 旅行成本法之優點 • Time is a valuable commodity (time is $) • Most major transportation/infrastructure projects built to ‘save travel costs’ • Need to tradeoff project costs with benefits • Ex: new highway that shortens commutes • Differences between ‘travel’ and ‘waiting’ • Waiting time disutility might be orders of magnitude higher than just ‘travel disutility’ • Why? Travelling itself might be fun

22. 旅行成本法 • 基本概念 - 用路人前往目的地所花的旅運成本及時間即為其前往該地之價格 • 是以，以不同旅運成本（涵括旅行時間貨幣化之價值）可估算用路人前往特定目的地之發生旅次數及其願付價格 • This is analogous to estimating peoples’ WTP for a marketed good based on the quantity demanded at different prices.

23. 旅行成本法 • Goal: To derive demand curve for park visits (note: this reflects use value only) • Current entrance fee = $20. • Typical visitor • L = # hours worked by person at wage w. • P0 = out-of-pocket expenses to visit National Park, • F = entrance fee. • t = travel time, s = visit time

24. 旅次價格 特定旅次之價格 = [運具搭乘成本+ 時間價值 * ( 運具行駛時間 + 等候時間 ) + 進入目的地之成本] • Notice opportunity cost of time (w) • This assumes we value travel time and visitation time at the wage rate of the individual. • Value of time ranges, but is often estimated at 1/3 or 1/2 the wage rate.

25. 估算目標 • Want to derive a demand curve for visits to National Park. • What can we do with a demand curve? • Calculate consumer surplus (benefits) – review concept on board… • Can calculate use-value of National Park • Can determine cost to consumers from e.g. entrance fee (from F0 to F1)

26. 估算過程 1. Station students at park entrance on several “random” days. • Ask visitors (1) zip code, (2) other stuff (mode of travel, $ spent, socioeconomic characteristics…) • Scale up answers to entire year, over entire pop: • # visits/zip code/year to park • Use knowledge of total number of visits to park per yr 2. Calculate travel cost from each zip code • Use travel time, travel costs, wages in zip code • This, with the entrance fee, is the “price” of a visit: p = TC + F 3. Sort zip codes into “zones” of equal travel cost • E.g. Taipei, Hueilien, Kaohsuing, … , etc.

27. 需求曲線推導 We now have data on • the differing “prices” paid by individuals and… • the “amount” bought at each price point. • Combined, price and quantity data allow us to estimate demand curve.

28. 旅行成本法之限制 • Our travel cost approach gives us a good estimate of the overall willingness to pay for National Park. • 難以反映不同目的地的差異性 • What is the decreased value of the park if we allow noise from helicopter rides or snowmobiling? • 建議︰採用「間斷選擇模型」 • Consider visitors choices between several possible sites, which each have different travel costs and different amenities (noise level). • Need several sites that are similar except for the amenities (difficult for National Park).

29. 旅行成本法估算之方法 • A simple 分區旅行成本法, using mostly secondary data, with some simple data collected from visitors. • An 個別旅行成本法, using a more detailed survey of visitors. • A 隨機效用法using survey and other data, and more complicated statistical techniques.

30. 分區估算法 • Simplest approach,estimates a value for recreational services of the site as a whole. • Collect info. on number of visits to site from different distances. Calculate number of visits “purchased” at different “prices.”  • Used to construct demand function for site, estimate consumer surplus for recreational services of the site.

31. 分區估算法步驟 • 界定分區組合May be defined by concentric circles around the site, or by geographic divisions, such as metropolitan areas or counties surrounding the site • 蒐集分區前往特定地之旅次產生資料 collect info. on number of visitors from each zone, and the number of visits made in the last year. • 估算分區每千人前往特定地之造訪次數calculate the visitation rates per 1000 population in each zone. This is simply the total visits per year from the zone, divided by the zone’s population in thousands.

32. Z o n e T ot a l Z o n e Vi s i ts / 100 0 Vi s i ts /Y ear Po p ul at i o n 0 1 0 00 4 0 0 400 1 2 0 00 2 0 0 400 2 4 0 00 1 0 0 400 抽樣資料 3 8 0 00 5 0 400 B e yo nd 3 0 T o t al V i si t s 1600

33. 分區估算法步驟 • 估算各分區前往特定地之旅運距離與時間calculate average round-trip travel distance and travel time to site for each zone.  Assume Zone 0 has zero travel distance and time.  Use average cost per mile and per hour of travel time, to calculate travel cost per trip.  Standard cost per mile is $0.30.  The cost of time is from average hourly wage.  Assume that it is $9/hour, or $0.15/minute, for all zones, although in practice it is likely to differ by zone. 

34. Z o n e R ou n d R ou n d D i st a n c e T ra v e l T ot a l T r i p T r i p t i me s T i m e T ra v e l D i st . T i m e C o st / M i l e t i me s C o st / ($ . 3 0 ) C o st / T r i p M i n u te ($ . 1 5 ) 0 0 0 0 0 0 1 2 0 3 0 $ 6 $ 4 . 5 0 $ 1 0 . 50 2 4 0 6 0 $ 1 2 $ 9 . 0 0 $ 2 1 . 00 3 8 0 1 2 0 $ 2 4 $ 1 8 . 00 $ 4 2 . 00 分區估算法步驟 5. 運用分區資料中之旅次產生數與旅運成本進行迴歸推估 Use regression to find relationship between visits and travel costs, e.g. Visits/1000 = 330 – 7.755*(Travel Cost)

35. 分區估算法步驟 6. 以迴歸線建置需求曲線 First point on demand curve is total visitors to site at current costs (with no entry fee), which is 1600 visits.  Other points by estimating number of visitors with different hypothetical entrance fees (assuming that an entrance fee is valued same as travel costs). Start with $10 entrance fee.  Plugging this into the estimated regression equation, V = 330 – 7.755C:

36. 分區估算法步驟 • This gives the second point on the demand curve—954 visits at an entry fee of $10.  In the same way, the number of visits for increasing entry fees can be calculated:

37. 分區估算法步驟 Consumer surplus = area under demand curve = benefits from recreational uses of site around $23,000 per year, or around $14.38 per visit ($23,000/1,600).  Agency’s objective was to decide feasibility to spend money to protect this site.  If actions cost less than $23,000 per year, the cost will be less than the benefits provided by the site.

38. 旅行時間節省價值 • Many studies seek to estimate VTTS • Can then be used easily in CBAs • Book reminds us of Waters 1993 (56 studies) • Many different methods used in studies • Route, speed, mode, location choices • Mean value of 48% of wage rate (median 40) • North America: 59% / 42% • Miller (1989): 60% drivers, 40% passengers • 90% drivers / 60% passengers in congested areas

39. 旅行時間價值實證研究 • NCHRP 2-18 (1995): National Cooperative Highway Research Program • Stated preference survey method • $15,000 income => $2.64/hour VTTS • $55,000 @ $5.34/hour • $95,000 @ $8.05/hour (decreasing)

40. 時間價值實證研究 • Again, travel versus leisure important • Wide variation: 1:1 to 5:1! • Income levels are important themselves • VTTS not purely proportional to income • Waters suggests ‘square root’ relation • E.g. if income increases factor 4, VTTS by 2 • Typically 40-60% of hourly rate in CBAs • US DOT: 50% of wage rate - local travel • 70% of wage for intercity personal travel • 100% of wage (plus fringe) - intercity business travel

41. 時間價值實證研究 • Value of recreation studies • ‘Values per trip’ -> ‘value per activity day’ • Activity day results (Sorg and Loomis 84) • Sport fishing: $25-$100, hunting $20-$130 • Camping $5-$25, Skiing $25, Boating $6-$40 • Wilderness recreation $13-$75 • Are there issues behind these results?

42. 紐澤西旅行時間價值估算法 • Used New Jersey Congestion Management System (NJCMS) - 21 counties total • Hourly data! Much more info. than TTI report • For 4,000 two-direction links • Freeways principal arteries, other arteries • Detailed data on truck volumes • Average vehicle occupancy data per county, per roadway type • Detailed data on individual road sizes, etc.

43. 服務水準 • Description of traffic flow (A-F) • A is best, F is worst (A-C ‘ok’, D-F not) • Peak hour travel speeds calculated • Compared to ‘free flow’ speeds • A-C classes not considered as congested • D-F congestion estimated by free-peak speed • All attempts to make specific findings on New Jersey compared to national • http://www.njit.edu/Home/congestion/

44. 估算變數之定義 • Roadway Congestion Index (RCI) - cars per road space, measures vehicle density • Found per urban area (compared to avgs) • > 1.0 undesirable • Travel Rate Index • Amount of extra time needed on a road peak vs. off-peak (e.g. 1.20 = 20% more)

45. 估算變數之定義 • Travel Delay - time difference between actual time and ‘zero volume’ travel time • Congestion Cost - delay and fuel costs • Fuel assumed at $1.28 per gallon • VTTS - used wage by county (100%) • Also, truck delays $2.65/mile (same as TTI) • Congestion cost per licensed driver • Took results divided by licenses • Assumed 69.2% of all residents each county

46. 旅行時間價值資料範例 • County wages $10.83-$23.20 per hour • Found RCI for each roadway link in NJ • Aggregated by class for each county

47. 估算助益 • Could find annual hours of delay per driver by aggregating roadway delays • Then dividing by number of drivers • Total annual congestion cost $4.9 B • Over 5% of total of TTI study • 75% for autos (190 M hours, $0.5 B fuel cost) • 25% for trucks (inc. labor/operating cost) • Avg annual delay per driver = 34 hours

48. 生命價值估算 • Miller (n=29) $3 M in 1999 USD, surveyed • 風險溢酬法 • 願付價格法 • 行為裁定法 (此如使用特定設備之成本) • 利得損失法 • 條件評價法

49. 生命價值估算之注意事項 • 成本效用分析觀點 • 強調生命的質與量均須重視 • 類同於折現， 人與人間的生命價值不同 • Back to the developing/developed example • 同時， 餘命年數亦有不同權重 • Young lives “more important” than old • Cutting short a year of life for us vs • Cutting short a year of life for 85-year-old • Often look at ‘life years’ rather than ‘lives’ saved.. These values also get discounted

50. 願付與願受價格 • Economics implies that WTP should be equal to ‘willingness to accept’ loss • Turns out people want MUCH MORE in compensation for losing something • WTA is factor of 4-15 higher than WTP! • Also see discrepancy shrink with experience • WTP formats should be used in CVs • Only can compare amongst individuals