title: "Strathclyde Business School, finTech MSc - becoming an effective technology analyst - fall 2018" author: "Olivier Bauthéac" output: md_document: variant: markdown_github
As part of the fall 2018 iteration of the 'becoming an effective technoloy analyst' class of the Strathclyde Business School finTech MSc program coursework, below are the instructions for your data-science finance assignment. Examples solutions in both the R and Python programming languages will be provided in due time.
In an excel woorkbook, query Bloomberg for historical (bdh) as well as contemporaneous (bdp) data for a market index as well as a broad cross-section of U.S. stocks. Historical data should be retrieved from October 1^st^ 2016 to today at the daily frequency on individual ticker specific sheets (one sheet per name). All names' contemporaneous data, on the other hand, should sit on a single sheet. The Bloomberg ticker for the market index is 'RAY Index' while those for the corporation names are listed below:
BBG stock tickers | | | |
------------------|-----------------|-----------------|-----------------|----------------
ADM US Equity | CIVI US Equity | GBX US Equity | LIND US Equity | SERV US Equity
AE US Equity | CLGX US Equity | GDI US Equity | LZB US Equity | SGA US Equity
AGCO US Equity | CLR US Equity | GHC US Equity | MAN US Equity | SITE US Equity
AJRD US Equity | COMM US Equity | GME US Equity | MEI US Equity | SMP US Equity
ALG US Equity | CRL US Equity | GOLF US Equity | MLR US Equity | SPXC US Equity
AMD US Equity | CTB US Equity | GPN US Equity | MRC US Equity | STRT US Equity
AMOT US Equity | CTLT US Equity | GTLS US Equity | MTD US Equity | SUPN US Equity
ASGN US Equity | CTXS US Equity | HFC US Equity | MTZ US Equity | TAST US Equity
ATRO US Equity | DHI US Equity | HOFT US Equity | NC US Equity | TMO US Equity
AVT US Equity | DKS US Equity | HPE US Equity | NGVT US Equity | TNET US Equity
AWI US Equity | EBIX US Equity | HURC US Equity | NHC US Equity | TPB US Equity
BBBY US Equity | EEFT US Equity | HWKN US Equity | NUE US Equity | UBNT US Equity
BFAM US Equity | ELF US Equity | HY US Equity | OSIS US Equity | UFPI US Equity
BID US Equity | ELVT US Equity | IAC US Equity | OSK US Equity | UFS US Equity
BIG US Equity | EML US Equity | IART US Equity | PFGC US Equity | USAK US Equity
BKNG US Equity | ENTG US Equity | IBP US Equity | PGTI US Equity | VLGEA US Equity
BLD US Equity | ERI US Equity | IDTI US Equity | PKI US Equity | VLO US Equity
BSET US Equity | ETH US Equity | INT US Equity | PLPC US Equity | VRSK US Equity
BWA US Equity | FICO US Equity | IOSP US Equity | PRAH US Equity | WBC US Equity
BYD US Equity | FISV US Equity | ITRI US Equity | PSX US Equity | WERN US Equity
CAL US Equity | FL US Equity | JLL US Equity | RBC US Equity | WGO US Equity
CBRE US Equity | FLR US Equity | KHC US Equity | RS US Equity | WRK US Equity
CENTA US Equity | FLT US Equity | KSU US Equity | RXN US Equity | XPO US Equity
CHEF US Equity | FTV US Equity | LGND US Equity | SCL US Equity | ZBRA US Equity
The historical time series should include the following market & book data fields:
Field | Bloomberg symbol
----------------------|-----------------
close price | PX_LAST
book value per share | BOOK_VAL_PER_SH
earnings per share | TRAIL_12M_EPS
dividend per share | TRAIL_12M_DVD_PER_SH
debt | SHORT_AND_LONG_TERM_DEBT
equity | TOTAL_EQUITY
current assets | BS_CUR_ASSET_REPORT
current liabilities | BS_CUR_LIAB
sales | SALES_REV_TURN
Contemporaneous data on the other hand should include the number of shares outstanding, number of directors on the board, number of women on the board, number of board meetings per year, long company name and company description. Explore Bloomberg to find the corresponding field symbols.
Hint 2. Inspect the BQL syntax in Bloomberg formula cells, ammend accordingly.
Using VBA, make your workbook flexible. Ammend your workbook so that it can retrieve data for any set of stocks/indexes & market/book fields at various frequencies (year, month, week, day), from and to any date. The user should only have to list the tickers/fields and set the parameters on one sheet.
Hint 2. Create an 'update' sheet with tickers list, parameters (frequency, start and end dates) and fields. This sheet could also be used to host the contemporaneous dataset.
Using VBA, make your workbook fully portable. If you open your workbook without a live Bloomberg connection you'll notice you loose the contemporaneous dataset; try to fix that problem somehow.
You now have a fully portable, customizable Bloomberg financial data extraction tool and now it's time to use it.
library(readxl); library(dplyr); library(data.table) path <- 'data-raw/pullit.xlsm'; ticker_market <- 'RAY Index'; window <- 252L ticker_firms <- read_excel(path, sheet = "update", range = cell_cols("D")) %>% filter(ticker != ticker_market) static <- read_excel(path, sheet = "update", range = cell_cols("D:H")) %>% filter(ticker != ticker_market) %>% mutate_at(vars(-ticker), funs(as.numeric)) tickers <- gsub(pattern = '/', replacement = '~', x = c(ticker_market, ticker_firms$ticker)) historical <- lapply(tickers, function(x) read_excel(path, sheet = x, skip = 1L) %>% mutate(Date = as.Date(Date), ticker = x) %>% mutate_at(vars(-c('ticker', 'Date')), funs(as.numeric)) %>% filter(! is.na(Date))) %>% rbindlist()
Using R or Python (example solutions will be provided for both programming languages), load the workbook data in memory. Organise the data in two dataframes, one for the historical times series, the other for static (contemporaneous) data. The time series dataframe should have a two-level row index including tickers & dates while columns should host the corresponding time series; the dataframe should broadly look like this:
select(historical, ticker, everything())
The static dataset on the other hand should be row-indexed by tickers and have columns hosting the corresponding static data fields. For static data, only numeric fields should be loaded with long company name and description fields left to the excel workbook for reference.
Using the most recent samples in the time series data, calculate the individual 1-year market betas for the stocks. Show calculations and comment. Comments should include a detailled discussion on what market betas are, what they represent for stocks as well as details about the corresponding model. Plot your results as a histogram and comment. Hint: there are 252 trading days in a year.
Using all the time series samples, calculate the individual rolling 1-year market betas for the stocks. Randomly select five stocks and display their corresponding rolling beta time series on the same lineplot.
After normalizing the ratios dataset above to zero means and unit variances, apply hierachical clustering and draw the corresponding dendogram. What seems to be the optimal number of clusters for this dataset? Explain.
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