Please provide a solution for the Knapsack Problem using Genetic Algorithm: ObjectRewardWeightA201B52C103D408E157FL254G45H72 Maximum weight = 12The above problem is a 0/1 Knapsack problem. You have to carry the different objects in yourbag in a way such that the reward is maximized without exceeding the weight limit. You cancarry an object exactly once but you always have to carry the object labeled "H". Assuming youare asked to use Genetic Algorithm for this problem, answer the following questions1. Encode the problem and create an initial population of 4 different chromosomes2. Explain what would be an appropriate fitness function for this problem. Use the fitnessfunction and perform natural selection to choose the 2 fittest chromosomes.3. Using the selected chromosomes perform a single-point crossover to get 2 offspring.4. Perform mutation and check the fitness of the final offspring. Explain your work.

1. Encoding the problem and creating an initial populationIn a 0/1 Knapsack problem with a genetic…

Answered: Object Reward Weight A 20 1 B 5 2 C 10…

Database System Concepts

7th Edition

ISBN:9780078022159

Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan

Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan

Chapter1: Introduction

Section: Chapter Questions

Problem 1PE

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Suppose you have been given a map of 6 cities connected with each other via different paths. Your job is to visit every city just once covering the minimum distance possible. Solve this problem using Genetic Algorithm. You can start at any point and end at any point. Just make sure that all the cities have been covered. 1. Encode the problem and create an initial population of 3 different chromosomes 2. Choose any one parent from your above solution and identify the following:i. Gene ii. Chromosome 3. Think of an appropriate fitness function to this problem and give proper justification. 4. Use the fitness function to calculate the fitness level of all the chromosomes in your population. Select the fittest 2 chromosomes based on the fitness function. 5. Perform crossover that you have been taught in the class on the selected parents. Now based on the offspring, for this problem do you think that is the best way to perform crossover? If not, explain why. 6. Perform mutation that you…
Santa needs to start preparing for the coming Christmas. He has one bag that canhold a maximum of Mkg in gifts’ weight. Each gift gi has a weight wi, and obviouslySanta wants to take the maximum number of gifts he can hold.Given the weight and value of n gifts and the total weight, M, the bag can hold,Santa needs you to design an algorithm that tells him which gifts he should put in hisbag such that the total number of gifts is maximized given that the total weight ofthe selected gifts should not exceed M. What is the worst-case running time of youralgorithm? Justify your answer.
Correct answer will be upvoted else Multiple Downvoted. Computer science. You are given an integer n (n>1). Your assignment is to find a succession of integers a1,a2,… ,ak with the end goal that: every simulated intelligence is completely more prominent than 1; a1⋅a2⋅… ⋅ak=n (I. e. the result of this grouping is n); ai+1 is separable by simulated intelligence for every I from 1 to k−1; k is the most extreme conceivable (I. e. the length of this grouping is the greatest conceivable). In case there are a few such groupings, any of them is adequate. It tends to be demonstrated that somewhere around one substantial grouping consistently exists for any integer n>1. You need to answer t autonomous experiments. Input The primary line of the input contains one integer t (1≤t≤5000) — the number of experiments. Then, at that point, t experiments follow. The main line of the experiment contains one integer n (2≤n≤1010). It is ensured that the amount of n…
A team sport game has m players in a team and a tournament can have n competing teams. TeamT1 ranks higher than team T2 if there is a way such that every member of T1 ranks higher than acorresponding member of T2 (note that the ranking is based on individual team members).(1) Design an efficient algorithm (pseudo code) to determine whether or not two teams T1and T2 can be ranked.(2) Given n teams {T1, T2, ... , Tn}, abstract the team ranking problem as a graph.(3) Design an efficient algorithm (pseudo code) to find the longest sequence <Ti1 , Ti2 ,..., Tik> of teams such that Tij ranks higher than Tij + 1 for j = 1,2,..., k − 1.(4) Analyze the time complexity of your algorithm in terms of m and n.
Starting from a randomly generated state of the 15-puzzle game , steepest-ascent hill-climbing (the vanilla version of hill-climbing search) gets stuck 76% of the time, i.e., solving only 24% of problem instances. But it works very quickly, i.e., it takes just 6 steps on average when it succeeds and 5 steps when it gets stuck. In contrast, if sideways moves are allowed, this raises the percentage of problem instances solved by hill-climbing from 24% to 81%, with the success at a cost: the algorithm averages roughly 7 steps for each successful instance and 32 steps for each failure. Now suppose that we are implementing random-restart hill climbing (i.e., if a search fails, it keeps to try, and try, until it gets a success) by the following two versions: one uses vanilla steepest-ascent hill climbing, and the other one uses hill climbing with sideways moves. Can you please tell which version of random-restart hill-climbing listed above runs faster on average? Please justify your…
SUBJECT: ARTIFICIAL INTELLIGENCE Write and implement the best first search algorithm where we have given the Start state and Goal state and we want to reach the goal state. 4 7 3 1 8 2 5 6 Initial state 1 2 3 8 4 7 6 5 Goal state
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Computer Science There is an n × n grid of squares. Each square is either special, or has a positive integer costassigned to it. No square on the border of the grid is special.A set of squares S is said to be good if it does not contain any special squares and, starting fromany special square, you cannot reach a square on the border of the grid by performing up, down,left and right moves without entering a cell belonging to S. 5 3 4 9 4 X 3 6 1 9 X 4 1 2 3 5 - Design an algorithm which receives an arbitrary n × n grid, runs in time poly-nomial in n and determines a good set of squares with minimum total cost.
Suppose that you have a maze search problem. From each numbered square in the maze, youmay move that exact number of squares horizontally or vertically in a straight line. Startingat a particular square (e.g. the top-left corner), find a path to the goal square marked "G".3 4 1 3 1 3 3 3 G 2 3 1 2 2 3 4 2 3 3 3 4 1 4 3 2 Describe the State Space components of this problem. Then solve the problem using breadthirst search and the depth first search. Hint: Indicate the changes to the Open and ClosedQueues in solving this problem for each type of search.
In Pacman game, Pacman has to traverse space and eat all the available food pellets without being eaten by moving ghosts. An important question that arises while estimating the computational runtime of solving a search problem is the size of the state space.Let’s assume that the Pacman game has the following configurations:• Pacman can be in 150 distinct (x, y) positions, and there is only one Pacman• The direction of Pacman face can be North, South, East, or West.• There are two ghosts, each of which can be in 14 distinct (x, y) positions• There are 30 food pellets, each of which can be eaten or not eatenFind the size of the state spac
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A safe is locked by a combination of of four binary digits (that is, 0 or 1), but theowner has forgotten the combination. The safe is designed in such a way that nomatter how many digits have been pressed, if the correct combination of three digitsis pressed at any point, then the safe automatically opens (there is no ”enter” key).Our goal is to find the minimum number of digits that one needs to key in in order toguarantee that the safe opens. In other words, we wish to find the smallest possiblelength of a binary sequence containing every four-digit sequence in it.(a) Create a digraph whose vertex set consists of three-digit binary sequences. Fromeach vertex labelled xyz, there is one outgoing edge (labelled 0) leading to vertexyz0, and another outgoing edge (labelled 1) leading to vertex yz1.(b) Explain why every edge represents a four digit sequence and why an Euleriantour of this graph represents the desired sequence of keystrokes.(c) Find the minimum number of digits that one…

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