You decide how involved you want to be. If you have the time and desire, log into your account and get in touch with your writer. From there you can keep a finger on the pulse and make sure the order is fulfilled on time (even though ALL our orders are delivered in a timely fashion).
Don’t want to be involved at all? Then let the magic happen on its own and check your inbox when the deadline approaches.
The reason why there is a possibility for you to control your writer is because we want to deliver the best possible result, and it’s always better to have a customer’s input.
And if you don’t feel up to it, all the writers we work with are qualified to create perfectly fine papers on their own. To work at this service, we require at least a master’s degree and 2 years of experience – enough to produce brilliant papers on a regular basis.
A non-refundable application fee of $75 is required for one program and $50 for each additional program if submitted and paid by November 30. Between 12:01 . EST on November 30 and 11:59 . on December 14, the application fee increases to $125 for one program and $75 for each additional program. You may pay the fee by credit card. The credit card payment system is part of the online application, and instructions are given when you submit your application. If you do not want to pay by credit card with the online application, you may pay by a check or money order drawn on a . bank, made payable to Carnegie Mellon University.
WSN nodes resource constrained. In order to keep the size and the cost of the nodes down, the nodes have limited processing power, memory and radio range. However, the resource constraint which has the most significant impact on many WSNs is the constraint on energy. WSN nodes are battery operated. Many wireless sensor networks are deployed in locations where battery replacement is not feasible. A node has to be discarded when the battery depletes. Energy scavenging may alleviate this problem in some sensor networks. Most WSN protocols are very conscious of the limited supply of energy, and try to conserve energy.