[Solved] SOLVED: Counting the Cetacean Mammals of Cardigan Bay solution

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1 Introduction PLEASE NOTE: We require that your programs are compliant with a recognised version of ANSI C. You must use NetBeans and the gcc compilers and gdb debuggers accessible from it to develop and debug your program. In addition, we also specify that you MUST use remote build host support and you must select to use central.aber.ac.uk as the remote build host. Our ocial environment in which all your user programs must run, and in which we will test them, is that provided by the environment described above. 2 Monitoring Dolphins and Porpoise between Strumble Head to Braich-y-Pwll You have been contracted to produce a software system to assist marine biologists who are interested in monitoring the cetacean mammals of Cardigan Bay. While several species of cetacean mammals are present in the bay, this project focusses on Harbour Porpoise and Bottlenose Dolphins. The sea area is depicted on the Eastern section of the Admiralty Chart number 1410 titled Carnsore Point to Braich-y-Pwll. 3 Background and Simplications NOTE: While much of the information supplied in this assignment specication is closely related to real issues of monitoring marine mammal populations, various simplications have been made to reduce the complexity of the problem. Theobservershavebeenequippedwithmodernaccurateequipment. Theequipmentallowsanobserver togiveabearingandadistancetothesightedcetaceanmammalandstatewhetheraHarbourPorpoise or a Bottlenose Dolphin has been sighted. The equipment (and the observers) are not perfect and so some errors will exist in the information they report. Some observers are on shore but others are located on boats at sea. 4 The Programs you must Create You are required to design, write and test an ANSI C program, with three clearly identiable separate features, to help solve various tasks that could assist a marine biologist to assess mammal populations. A rm statement: Your program MUST be written so that it is very clear to us which sections of code provide the three features described below. 1 When running your program, it MUST be possible for us to ask it to just run the rst feature, then run the second feature and nally run the third feature. The rst feature, specied in more detail in section 8.1, requires that you analyse a set of sightings of cetacean mammals and calculate the implied locations (latitude/longitude) of each mammal. The second feature, specied in more detail in section 8.2, requires that you analyse the calculated locations of cetacean mammals and decide how many mammals have really been sighted. That is, you decide whether some sightings actually refer to the same mammal and if so, calculate corrected locations. The third feature, specied in more detail in section 8.3, requires that you analyse the corrected locations of the cetacean mammals and decide how many separate pods of mammals are present in the bay. 5 Locations and Distances 5.1 Units used in our Data and for Measurements and Calculations In accordance with one common maritime choice, the units used in our data are degrees of latitude and longitude for locations, degrees from true north (clockwise) for directions, and nautical miles for distances. Observer and Cetacean Mammal Positions Positions of observers and cetacean mammals will be provided or calculated as a latitude and a longitude in degrees and expressed as real numbers. Latitude: will be given (or should be calculated) as positive values in the Northern hemisphere and negative values if a location is south of the equator. Thus, latitude goes from 0.000 at the equator to 90.000 at the North Pole and to -90.000 at the South Pole. Longitude: will be given (or should be calculated) as positive values if the location is to the East of the Greenwich meridian and negative values if the location is to the West of the Greenwich meridian. Thus, longitude will go from 0.000 at Greenwich to negative values as you travel due West and -180.000 is the far side of the world. As you head due East from Greenwich, values increase positively and 180.000 is also the far side of the world, and indeed exactly the same place as -180.000. Example Locations: Here are two example locations. 1. A latitude of 52.500 with a longitude of -5.500 is in the middle of St. Georgess Channel (i.e., between Wales and Ireland) 2. Alatitudeof51.767withalongitudeof1.283istheapproximatelocationoftheGuneet light about 10 miles o Frinton-on-Sea on the UK East coast just North of the entrance to the Thames estuary in the southern North Sea. Bearings (Directions) The bearing of a mammal sighting will be given in degrees true. The direction reports which direction the observer is looking when they sight the cetacean mammal. Thus, a bearing of 45.000 means the observer is looking towards the North East, a bearing of 180.000 means due South and 270.000 means due West. Ranges (Distances) The range of a sighting (distance from observer) will be given in nautical miles and expressed as real numbers. [Note: A nautical mile corresponds to the distance equivalent to moving north or south by one minute of latitude, i.e. by one 1 60 of a degree.] Our Sea Area We are only interested in what cetacean mammals are doing if they are within our sea area. In other words if they are in the sea area covered by the Eastern part of the chart Carnsore Point to Braich-y-Pwll. 2 If sighting reports indicate that a mammal is further South than a latitude of 52.00, or further North than 52.833, you should ignore that report. If sighting reports indicate that a mammal is further East than a longitude of -4.000, or further West than -5.500, you should ignore that report. 5.2 Calculating a Cetacean Mammals Position You need to calculate the reported location of cetacean mammals based on the sightings that are received. You are required to write a function that calculates the location of a cetacean mammal. The function should take an observer location, a bearing and a range as parameters and it should produce a calculated location as its return value. Heres the mathematics you need to be able to calculate that position. In what follows: OLAT represents an observers own latitude in degrees OLATR represents an observers own latitude converted into radians OLONG represents an observers own longitude in degrees BG represents the bearing from the observer to the cetacean mammal measured from True North in degrees BGR represents the bearing of the cetacean mammal from True North converted into radians RANGE represents the range from the observer to the cetacean mammal measured in nautical miles CMLAT represents a cetacean mammals calculated latitude in degrees CMLONG represents a cetacean mammals calculated longitude in degrees To convert an angle in degrees to an angle in radians you have to multiply by PI and divide by 180.0 The value for PI can be accessed as a constant called M_PI which is dened in the math.h standard header le. That is, (angle in radians) = (angle in degrees) * M_PI / 180.0; The references to sin and cos in the equations given below are references to the mathematical functions sin and cos. Pre-compiled versions of these exist in the C standard maths library and their signatures are again denedinthemath.hstandardheaderle. Aswellasincludingthemath.hheaderleinyourprograms, you will also need to tell the compiler to link in the math library. This is normally done by having an extra -lm parameter on the compiler command line. CMLAT = OLAT + (RANGE * cos(BGR)) / 60.0; CMLONG = OLONG + (RANGE * sin(BGR) / cos(OLATR)) / 60.0; The accuracy of above mathematics depends on a few simplifying assumptions such as the earth being round and the locations not being too near the North or South poles. 3 5.3 Calculating Distances Between Locations For features 2 and 3 you need to calculate the distances between the locations of cetacean mammals. We have provided a compiled version of one function that calculates the distance between any two locations, that is detailed in a section 7 of this worksheet. 6 The Data Files Provided We provide a set of data les to describe the location of the observers and the sightings they make of cetacean mammals. 6.1 Observer Locations The Observer Location les contain a set of lines of information representing the location of our observers at a certain point in time. Each data le contains a xed format introduction followed by a set of entries, one per observer. Your program MUST NOT assume any xed specic number of observers but should process the le until end-of-le is encountered. The rst line of the le contains the date and the time using a 24 hour clock. The line contains six integers, separated by spaces, which are day month year hour minute second. The remainder of each le contains lines of information, each line representing a single observer and their location. You may assume that all the observer ID values are all unique. The values supplied on each line are separated by spaces and the values and their types are in the following order: an ID for the observer as an alphanumeric string without any embedded gaps; the latitude of the observer in degrees as described above; the longitude of the observer in degrees as described above; Here is the contents of a (small) example le for the 5th November 2014 at 14:53:00. 05 11 2014 14 53 00 AB01 52.408 -4.217 XY23 51.750 -4.300 PQ29 52.100 -6.000 NY23 52.000 -5.900 6.2 Cetacean Sightings The Cetacean Sightings les contain a set of lines of information representing the cetaceans that have been sighted by the observers. Each data le contains a set of entries, one per sighting. Your program MUST NOT assume any xed specic number of sightings but should process the le until end-of-le is encountered. The le contains lines of information, each line representing a single sighting, the observers ID, the cetacean type, the bearing to the cetacean mammal and its range. 4 Note: an observer might sight multiple cetacean mammals and multiple observers will often sight the same cetacean mammal. The values supplied on each line are separated by spaces and the values and their types are in the following order: an ID for the observer as an alphanumeric string without any embedded gaps; the type of cetacean mammal that has been seen as a single letter (P for Harbour Porpoise, D for Bottlenose Dolphin); the bearing from the observer to the cetacean mammal measured from True North in degrees as described above; the range from the observer to the cetacean mammal measured in nautical miles as described above; Here is the contents of a (small) example sightings le. AB01 P 270.0 4.10 AB01 D 275.0 4.50 XY23 D 320.0 6.79 XY23 D 340.0 7.50 PQ29 P 230.0 6.50 NY23 D 359.0 8.30 You will notice that some observers have sighted more than one cetacean mammal. 6.3 Alternative Data Files The data we provide must not be hard coded into your program in any way. It should be possible for us to provide new data les and then use your program to process the data purely by us providing the names of the new les. Indeed, we may choose to deliberately have some extra data les, of exactly the same format, which we choose to use when we evaluate your program, which quite deliberately are NOT available to you during development! While any les we would use would be of the same format to those described above, we would have dierent numbers of observers, cetacean mammals etc. 7 Pre-compiled Program Code that we Supply We are providing you with a pre-compiled version of a function that you are required to use. 1. The function calculates the shortest distance, in nautical miles, between two places on the earths surface. It thus calculates the so-called Great Circle distance. The code is based on the calculation as described on the web page http://en.wikipedia.org/wiki/Great-circle_distance The detailed denition of the interface to our function is provided as a well commented C header le which is downloadable from the Blackboard course web site. However, in simple terms, it expects you to supply two locations and it then calculates the distance between them. Each location must be supplied as a struct with two elds. The elds are real numbers (as type double) and represent the latitude and longitude of a location. The functions return value is a double and is the distance between the two locations in nautical miles. 5 8 Your Missions 8.1 Feature 1 : Your Initial Mission You are required to have the following features in your program. 1. The program must prompt for the name of a le which contains details of all the observer locations that are active in our sea area. Your program must open the le, read in all the data and store it in a suitable set of data structures and variables etc. 2. The program must prompt for the name of a le which contains the sightings of cetacean mammals. Your program must open the le, read in all the data and store it in a suitable set of data structures and variables etc. 3. Your program should now calculate the locations of all the cetacean mammals as sighted by the observers. 4. Your program should display the locations of the cetacean mammals, their types and which observer sighted them in a suitable tabular format. 8.2 Feature 2 : Your Main Mission For this feature you must analyse the locations of the cetacean mammals that have been sighted and decide which reports refer to the same animal. Two (or more) sighting reports are considered to refer to the same mammal if the calculated locations are within 0.02 of a nautical mile (approximately 40 metres) of each other. You should set the true location of the cetacean mammal to the average of the multiple sightings. You must present your results in a suitable tabular form which, for each cetacean mammal, should include the individual multiple sighting locations as well as the averaged location and the type of the mammal. 8.3 Feature 3 : Your Pod Mission Cetacean mammals often swim in groups referred to as pods. For the purposes of our program, a cetacean mammal is considered to be in a pod if it is within 0.1 of a nautical mile of any other cetacean mammal within a pod. For this feature you must calculate how many pods of cetacean mammals are active in our area at the time of the sightings. For each pod you must display how many animals are within the pod and the location of each of the mammals. You must present your results in a suitable tabular form. 8.4 Implementation Requirements You are expected to make good use of the facilities of the C programming language (1989), C99 or C11 that are supported by our compilers. Your program must make use of arrays and/or linked data structures at appropriate places. Your program must make good use of functions to modularise your code in a sensible way. 6 8.5 Comments and layout We do of course expect you to sensibly comment your programs, making sure that all comments add real value and do not just, in essence, duplicate code. The program should have good layout and must use meaningful names for variables, structures and other identiers. 8.6 Choices you are free to make You need to read in the data les and store the information within suitable data structures, which you have designed, within your program. Your program should use multiple functions, located in multiple les as you choose. As part of our assessment, we will evaluate the quality of the choices you have made. 8.7 Testing and Data Processing Requirements As well as any testing you conduct to debug and validate your program, you MUST also analyse each of our data les. We will produce a second further information document clearly stating exactly how many datales we have produced, their names and how you access them. 9 Assessment Criteria Bearing in mind that this project concerns software development, the most appropriate assessment criteria are those in Appendix AA of the student handbook, namely those for Assessment Criteria for Development. This assignment is worth 50% of the total marks available for this module. NOTE: Solutions which do not tackle the pod mission could potentially be awarded a mark of up to 75% if they cannot be criticized in any manner and are accompanied by all other materials as indicated below. Solutions must also tackle the pod mission for marks of 76% or above. 10 The Material You Must Submit The submission must be made electronically using Blackboard. There will be appropriate links in the Assignments part of the course materials for module . You must submit (via Blackboard) two things. 1. NetBeans Project Export. Your NetBeans Project Export MUST be made using NetBeans. You should make it very clear which version of NetBeans has been used and on what computing platform. A stated earlier, your MUST use remote build host support and use central.aber.ac.uk as the build host. YouMUSTmakesurethatyourexportincludesallofthesourcecodeofyourprogramaddressing each of the three required features. Note: we will be judging the quality of the layout of the program you have produced. 2. A Design, Compile / Run Document You MUST submit a document (in PDF format). This document must include: 7 A short section of between two and four sides of A4 in length describing the design decisions you made. Include diagrams if you wish to help explain your design. If you have used any minor pieces of code taken from elsewhere, or drawn understanding from published books or web pages, you should include appropriate references and a bibliography in your document. Please make sure you fully understand the departments stance on plagiarism as described in the current student handbook. The document must also include a section showing the output produced when attempting to compile your program and any errors or warnings that are produced. This can be a collection of screen shots The document must also include a section showing the output produced when running your program for each of the three features and it processing our supplied data les. This can be a collection of screen shots. NOTE: This is an individual assignment and must be completed as a one person eort by the student submitting the work. By making your submission on Blackboard it will be deemed that you are declaring the submission to be your own work.

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[Solved] SOLVED: Counting the Cetacean Mammals of Cardigan Bay solution
$25