Answer:
b
Explanation:
First, we need to initialize the classifier.
Then, we are required to train the classifier.
The next step is to predict the target.
And finally, we need to evaluate the classifier model.
You will find different algorithms for solving the classification problem. Some of them are like decision tree classification etc.
However, you need to know how these classifier works. And its explained before:
You need to initialize the classifier at first.
All kinds of classifiers in the scikit-learn make use of the method fit(x,y) for fitting the model or the training for the given training set in level y.
The predict(x) returns the y which is the predicted label.And this is prediction.
For evaluating the classifier model- the score(x,y) gives back the certain score for a mentioned test data x as well as the test label y.
Answer: All devices are connected to a central cable or backbone.
Explanation:
"All devices are connected to a central cable or backbone". Bus Topology refers to a logical or physical network's design. Bus Topology is also the network setup for a LAN (Local Area Network) nodes connected to a "backbone" or cable. The Bus setup connects every single computer and network to a single cable. Among others, the type of cable implemented for bus topology is usually a coaxial cable.
The feature of technology that allows this to happen is d. reduced latency.
Latency is the amount of time it takes for data to be transmitted in a network. Reduced latency therefore refers to a situation where data is transmitted with speed.
Reduced latency allows:
- better communication
- reduced lag and,
- better gaming
The machine in question is only able to quickly sound the alarm because it has low latency.
In conclusion, we can say that low latency enables the machine above to sound the alarm quickly which means that low latency is important to the safety of that environment.
<em>Find out more at brainly.com/question/9337524.</em>
Options for this question include:
a. improved bandwidth
b. connection density
c. effective range
d. reduced latency
