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REST Scraping API for Real Estate data, a Spatial Bayesian modeling perspective with INLA

author: Niccolò Salvini date: 14 June, 2021

HitCount GitHub issues Generic badge Website Project Status: WIP – Initial development is in progress, but there has not yet been a stable, usable release suitable for the public. Netlify Status



Abstract:

The following work has the aim to build a robust Scraping API service to extract Real Estate rental data (Milan, IT) and applying geostatistics spatial modeling through a convenient computing alternative called INLA. Data originates from immobiliare.it database and it is extracted through a scraper built on top of the website. The scraper is optimized with respect to both the server side kindly requesting permission and imposing delayed-request rates, and the client side by granting continuity through fail dealers and request’s headers rotation. Scraping functions exploit a custom workflow that combines url reverse engineering and optimal search strategies within the website. Speed comes from the fact that differently from spiders and derivatives which operate a full crawling down of the web site, the workflow concentrates only on a restricted set of urls. A further critical speed boost is offered by parallelism through the latest Future back-end, and a run time benchmark demonstrates the scraper rapidity for two recent parallel with two configurations. The scraper is then wrapped into a http API through an R framework, namely Plumber. Security is a major focus and anti dossing strategies, HTTPS and sanitization are singularly treated. Docker can offer a lightweight environment where dependencies are conveniently organized making the software portable. As a result the whole API service is containerized and built upon custom Dockerfiles, which are orchestrated by Compose through a .yml file. Amazon EC2 is an AWS web service providing a stable, scalable cloud computing capability in which the system is hosted. The service choice is a free tier one. Along with the server it comes the need of a reverse proxy service and the choice falls on NGINX reverse proxy server for authentication and load balancing. The architecture principles stacked on top of the http API elevates it to being RESTful. RESTful APIs are a mean of communication among internet services that allows to perform any kind of action without having both parts to know how they are implemented. In other words, if the client wants to interact with a web service with the aim to retrieve information or perform a function, a RESTful API land a hand by communicating the desiderata to that system so it can understand and fulfill the request in a secured and structured way. Software CI/CD is managed through automatic workflow that exploits GitHub and DockerHub, which ultimately allows containers to be pulled into the EC2. Once the RESTful API endpoint is invoked, data, in this case Milan rental market within the municipality borders, is asynchronously scraped and collected into a JSON format. Traditional spatial bayesian methods have been generally slow in the context of spatial big data since covariance matrices are dense and their inversions scale to a cubic order. Therefore Integrated Nested Laplace approximation (INLA) is applied constituting a faster computational alternative on a special type of models called Latent Gaussian models (LGM). INLA shorten computations through analytics approximations with Laplace and numerical methods for space matrices with the aim to obtain an approximated posterior distribution of the parameters. Hedonic Price Models (HPM) constitutes the economic theoretical foundation of the model according to which the linear predictor is set. As a matter of fact house prices are related to the value of the property by their demand-offer price equilibra for each single characteristic (including the spatial ones). A further aspects addresses the fact that prices are considered as a proxy value for rents since they are both interchangeable economic actions satisfying the same need. However the critical part of studying house characteristics in geostatistics is the estimation for the reason already anticipates. LGMs are defined into a hierarchical bayesian modeling framework, distinguishing three nested hierarchy levels: the likelihood of the data (generally an exponential family), the latent Gaussian Markov Random Field GRMF (where the linear predictor is) and the hyper parameter distribution for which priors are specified. GMRF are suitable since they provide a sparse precision matrix due to conditional assumption, marking matrices tridiagonal. The spatial component of the data is considered as a discrete realization of an underlying unobserved and continuous Gaussian Process (GP) to be estimated, completely characterized by a mean structure and a covariance matrix. For the Gaussian Process are made two major assumptions: stationarity and isotropy, which let specifying a flexible covariance function i.e. Matérn. The Stochastic Partial Differential Equations (SPDE) solutions can provide a GMRF representation of the GP whose covariance matrix is Matérn. This happens through a triangulation of the domain of the study, i.e. mesh. The model is then fitted and cross validated with R-INLA and inference on parameter posterior distribution is given.

Deployment:

The deployment of the project is made through Netlify + GitHub + GitHub actions (CI environement).

License:

License: MIT