Added 4 more datasets - total count = 5

e051db09 · Rahim Rasool · 81405bc6 · e051db09 · e051db09 · e051db09
Commit e051db09 authored Jan 24, 2019 by Rahim Rasool
14 changed files
--- a/Car Evaluation/.gitkeep
+++ b/Car Evaluation/.gitkeep
--- a/Car Evaluation/1190.jpg
+++ b/Car Evaluation/1190.jpg
--- a/Car Evaluation/README.md
+++ b/Car Evaluation/README.md
+Data Science Dojo <br/>
+Copyright (c) 2016 - 2019
+
+---
+
+**Level:** Beginner <br/>
+**Recommended Use:** Classification Models<br/>
+**Domain:** Automobile<br/> 
+
+## Car Evaluation Data Set 
+
+### Predict acceptibility of a car
+
+
+---
+![](1190.jpg)
+---
+
+This *intermediate* level data set was derived from a decision-making model which was originally developed for research on multi-attribute decision making. 
+Decision making involves selection between seemingly conflicting alternatives. 
+
+The data set has 1728 rows and 7 columns in which car attributes such as price and technology are described across 6 attributes such as "Buying Price", "Maintenance", and "Safety" etc. There are multiple alternatives under each of the 6 attributes. Car's acceptability,
+the seventh attribute, is the outcome variable.         
+
+This data set is recommended for learning and practicing your skills in **classification modelling techniques**. Feel free to explore the data set with multiple 
+classification methods. The Following data dictionary gives more details on this data set:
+
+---
+
+### Data Dictionary 
+
+| Column   Position 	| Atrribute Name 	| Definition                                                                                	| Data Type   	| Example          	| % Null Ratios 	|
+|-------------------	|----------------	|-------------------------------------------------------------------------------------------	|-------------	|------------------	|---------------	|
+| 1                 	| buying         	| Buying price of the car (v-high, high, med, low)                                          	| Qualitative 	| low, med, high   	| 0             	|
+| 2                 	| maint          	| Price of the maintenance of car (v-high, high, med, low)                                  	| Qualitative 	| low, med, high   	| 0             	|
+| 3                 	| doors          	| Number of doors (2, 3, 4, 5-more)                                                         	| Qualitative 	| 2, 3, 4          	| 0             	|
+| 4                 	| persons        	| Capacity in terms of persons to carry (2, 4, more)                                        	| Qualitative 	| 2, 4, more       	| 0             	|
+| 5                 	| lug_boot       	| The size of luggage boot (small, med, big)                                                	| Qualitative 	| small, med, big  	| 0             	|
+| 6                 	| safety         	| Estimated safety of the car (low, med, high)                                              	| Qualitative 	| low, med, high   	| 0             	|
+| 7                 	| class          	| Car acceptability (unacc: unacceptible, acc: acceptible, good: good,   v-good: very good) 	| Qualitative 	| unacc, acc, good 	| 0             	|
+
+---
+
+### Acknowledgement
+
+This data set has been sourced from the Machine Learning Repository of University of California, Irvine [Car Evaluation Data Set (UC Irvine)](https://archive.ics.uci.edu/ml/datasets/Car+Evaluation). The UCI page mentions following as the donor of the dataset:       
+
+ Marko Bohanec (marko.bohanec '@' ijs.si) 
+ Blaz Zupan (blaz.zupan '@' ijs.si)    
+
+
+
+
--- a/Car Evaluation/car.data
+++ b/Car Evaluation/car.data
--- a/Real Estate Valuation/310.jpg
+++ b/Real Estate Valuation/310.jpg
--- a/Real Estate Valuation/README.md
+++ b/Real Estate Valuation/README.md
+Data Science Dojo <br/>
+Copyright (c) 2016 - 2019
+
+---
+
+**Level:** Intermediate <br/>
+**Recommended Use:** Regression Models<br/>
+**Domain:** Real Estate<br/> 
+
+## Real Estate Valuation Data Set 
+
+### Can you predict the price of a house? 
+
+
+---
+![](310.jpg)
+---
+
+This *intermediate* level data set has 414 rows and 7 columns. 
+It provides the market historical data set of real estate valuations which are collected from Sindian Dist., New Taipei City, Taiwan.
+This data set is recommended for learning and practicing your skills in **exploratory data analysis**, **data visualization**, and **regression modelling techniques**. 
+Feel free to explore the data set with multiple **supervised** and **unsupervised** learning techniques. 
+The Following data dictionary gives more details on this data set:
+
+---
+
+### Data Dictionary 
+
+| Column   Position 	| Atrribute Name                         	| Definition                                                                                                                                                                 	| Data Type    	| Example                         	| % Null Ratios 	|
+|-------------------	|----------------------------------------	|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------	|--------------	|---------------------------------	|---------------	|
+| 1                 	| X1 transaction date                    	| The   transaction date (for example, 2013.250=2013 March, 2013.500=2013 June, etc.)                                                                                        	| Qualitative  	| 2013.500,   2013.500, 2013.333  	| 0             	|
+| 2                 	| X2 house age                           	| The house age   (unit: year)                                                                                                                                               	| Quantitative 	| 19.5, 13.3, 5.0                 	| 0             	|
+| 3                 	| X3 distance to the nearest MRT station 	| The distance   to the nearest MRT station (unit: meter)                                                                                                                    	| Quantitative 	| 390.5684, 405.21340, 23.38284   	| 0             	|
+| 4                 	| X4 number of convenience stores        	| The number of   convenience stores in the living circle on foot                                                                                                            	| Quantitative 	| 6, 8, 1                         	| 0             	|
+| 5                 	| X5 latitude                            	| The geographic   coordinate, latitude (unit: degree)                                                                                                                       	| Quantitative 	| 24.97937,   24.97544, 24.94925  	| 0             	|
+| 6                 	| X6 longtitude                          	| The geographic   coordinate, longitude (unit: degree)                                                                                                                      	| Quantitative 	| 121.54243, 121.49587, 121.51151	 	| 0             	|
+| 7                 	| Y house price of unit area             	| The house price of unit   area (10000 New Taiwan Dollar/Ping, where Ping is a local unit, 1 Ping = 3.3   meter squared) for example, 29.3 = 293,000 New Taiwan Dollar/Ping 	| Quantitative 	| 29.3, 33.6, 47.7                	| 0             	|
+
+### Acknowledgement
+
+
+This data set has been sourced from the Machine Learning Repository of University of California, Irvine [Real Estate Valuation Data Set (UC Irvine)](https://archive.ics.uci.edu/ml/datasets/Real+estate+valuation+data+set).<br/> 
+The UCI page mentions the following as the original source of the data set:<br/> 
+*Yeh, I. C., & Hsu, T. K. (2018). Building real estate valuation models with comparative approach through case-based reasoning. Applied Soft Computing, 65, 260-271*  
\ No newline at end of file
--- a/Real Estate Valuation/Real estate valuation data set.xlsx
+++ b/Real Estate Valuation/Real estate valuation data set.xlsx
--- a/User Knowledge Modeling/342309-PA9PNI-658.jpg
+++ b/User Knowledge Modeling/342309-PA9PNI-658.jpg
--- a/User Knowledge Modeling/Data_User_Modeling_Dataset_Hamdi Tolga KAHRAMAN.xls
+++ b/User Knowledge Modeling/Data_User_Modeling_Dataset_Hamdi Tolga KAHRAMAN.xls
--- a/User Knowledge Modeling/README.md
+++ b/User Knowledge Modeling/README.md
+Data Science Dojo <br/>
+Copyright (c) 2016 - 2019
+
+---
+
+**Level:** Intermediate <br/>
+**Recommended Use:** Classification/Clustering<br/>
+**Domain:** Education/Web<br/> 
+
+## User Knowledge Modeling Data Set
+
+### Predict student's knowledge level 
+
+
+---
+![](342309-PA9PNI-658.jpg)
+---
+
+This *intermediate* level data set has 403 rows and 6 columns.
+The data set has been divided into training and testing (training: 258, testing: 145).
+It is a real dataset about the students' knowledge status about the subject of Electrical DC Machines.
+This data set is recommended for learning and practicing your skills in **exploratory data analysis**, **data visualization**, and **classification** and **clustering** techniques. 
+Feel free to explore the data set with multiple **supervised** and **unsupervised** learning techniques. The Following data dictionary gives more details on this data set:
+
+---
+
+### Data Dictionary 
+
+| Column   Position 	| Atrribute Name 	| Definition                                                              	| Data Type    	| Example                 	| % Null Ratios 	|
+|-------------------	|----------------	|-------------------------------------------------------------------------	|--------------	|-------------------------	|---------------	|
+| 1                 	| STG            	| The degree of   study time for goal object materials                    	| Quantitative 	| 0.060, 0.100, 0.080     	| 0             	|
+| 2                 	| SCG            	| The degree of   repetition number of user for goal object materials     	| Quantitative 	| 0.000, 0.100, 0.250     	| 0             	|
+| 3                 	| STR            	| The degree of   study time of user for related objects with goal object 	| Quantitative 	| 0.10, 0.15, 0.05        	| 0             	|
+| 4                 	| LPR            	| The exam   performance of user for related objects with goal object     	| Quantitative 	| 0.98, 0.10, 0.01        	| 0             	|
+| 5                 	| PEG            	| The exam   performance of user for goal objects                         	| Quantitative 	| 0.66, 0.56, 0.33        	| 0             	|
+| 6                 	| UNS            	| The knowledge   level of user (Very Low, Low, Middle, High)             	| Qualitative  	| "High", "Middle", "Low" 	| 0             	|
+
+---
+
+### Acknowledgement
+
+
+This data set has been sourced from the Machine Learning Repository of University of California, Irvine [User Knowledge Modeling Data Set (UC Irvine)](https://archive.ics.uci.edu/ml/datasets/User+Knowledge+Modeling).<br/> 
+The UCI page mentions the following publication as the original source of the data set:<br/>
+*H. T. Kahraman, Sagiroglu, S., Colak, I., Developing intuitive knowledge classifier and modeling of users' domain dependent data in web, Knowledge Based Systems, vol. 37, pp. 283-295, 2013*
\ No newline at end of file
--- a/Wireless Indoor Localization/.gitkeep
+++ b/Wireless Indoor Localization/.gitkeep
--- a/Wireless Indoor Localization/181.jpg
+++ b/Wireless Indoor Localization/181.jpg
--- a/Wireless Indoor Localization/README.md
+++ b/Wireless Indoor Localization/README.md
+Data Science Dojo <br/>
+Copyright (c) 2016 - 2019
+
+---
+
+**Level:** Beginner <br/>
+**Recommended Use:** Classification Models<br/>
+**Domain:** Mobile/Location<br/> 
+
+## Wireless Indoor Localization Data Set 
+
+### Predict location from wifi signal strength 
+
+
+---
+![](181.jpg)
+---
+
+This *beginner* level data set has 2000 rows and 8 columns.
+The data set contains wifi signal strength observed from 7 wifi devices on a smartphone collected in indoor space. 
+The data could be used to estimate the location in one of the four rooms.
+
+This data set is recommended for learning and practicing your skills in **exploratory data analysis**, **data visualization**, and **classification modelling techniques**. 
+Feel free to explore the data set with multiple **supervised** and **unsupervised** learning techniques. The Following data dictionary gives more details on this data set:
+
+---
+
+### Data Dictionary 
+
+| Column   Position 	| Atrribute Name 	| Definition                           	| Data Type    	| Example       	| % Null Ratios 	|
+|-------------------	|----------------	|--------------------------------------	|--------------	|---------------	|---------------	|
+| 1                 	| Wifi 1         	| Signal strength of wifi 1            	| Quantitative 	| -42, -67, -50 	| 0             	|
+| 2                 	| Wifi 2         	| Signal strength of wifi 2            	| Quantitative 	| -58, -64, -40 	| 0             	|
+| 3                 	| Wifi 3         	| Signal strength of wifi 3            	| Quantitative 	| -65, -50, -70 	| 0             	|
+| 4                 	| Wifi 4         	| Signal strength of wifi 4            	| Quantitative 	| -63, -59, -37 	| 0             	|
+| 5                 	| Wifi 5         	| Signal strength of wifi 5            	| Quantitative 	| -80, -73, -56 	| 0             	|
+| 6                 	| Wifi 6         	| Signal strength of wifi 6            	| Quantitative 	| -90, -75, -64 	| 0             	|
+| 7                 	| Wifi 7         	| Signal strength of wifi 7            	| Quantitative 	| -91, -65, -83 	| 0             	|
+| 8                 	| Room           	| One of the four rooms (1, 2, 3,   4) 	| Quantitative 	| 1, 2, 3       	| 0             	|
+
+---
+
+### Acknowledgement
+
+This data set has been sourced from the Machine Learning Repository of University of California, Irvine [Wireless Indoor Localization Data Set (UC Irvine)](https://archive.ics.uci.edu/ml/datasets/Wireless+Indoor+Localization). 
+The UCI page mentions the following 2 publications as the original source of the data set:
+
+*1. Rajen Bhatt, 'Fuzzy-Rough Approaches for Pattern Classification: Hybrid measures, Mathematical analysis, Feature selection algorithms, Decision tree algorithms, Neural learning, and Applications', Amazon Books*<br/> 
+*2. Jayant G Rohra, Boominathan Perumal, Swathi Jamjala Narayanan, Priya Thakur, and Rajen B Bhatt, 'User Localization in an Indoor Environment Using Fuzzy Hybrid of Particle Swarm Optimization & Gravitational Search Algorithm with Neural Networks', in Proceedings of Sixth International Conference on Soft Computing for Problem Solving,2017, pp. 286-295.*
+
--- a/Wireless Indoor Localization/wifi_localization.txt
+++ b/Wireless Indoor Localization/wifi_localization.txt