IEEEtran：如何摆脱 bibtex 中的排序

这个问题sorting=none的答案解决了如何通过包选项摆脱排序的问题biblatex。

如何在bibtex不调用的情况下获得相同的结果biblatex？

\nocite{*}我刚刚尝试在之后添加\begin{document}，但没有任何改变。

更新 1：MWE

%% bare_conf.tex
%% V1.4b
%% 2015/08/26
\documentclass[conference]{IEEEtran}

\usepackage{cite}

\begin{document}

\title{XXX}

\author{\IEEEauthorblockN{XXX}
\IEEEauthorblockA{YYY
Email: ZZZ}
}

\maketitle

\begin{abstract}
The abstract goes here.
\end{abstract}

\IEEEpeerreviewmaketitle

\section{Introduction}

Highly complex systems are typically composed many components. A system configuration (mode) is a particular collective behavior exhibited from a specific subset of the system's components. Reconfiguration Desirability in case of complex systems is two-fold: reconfiguration firstly paves the way for realizing multimodal systems, thereby achieving multifunctionality through multimodality. Furthermore, the complex system's resilience against (fatal) faults is increased; because, reconfiguration facilitates the switching from the faulty configuration to another functional configuration.

There have been extensive investigations on the notion of reconfiguration in view of different complex systems such as power systems ( \cite{abdelaziz2010distribution,gomes2006new,mcdermott1999heuristic,sarfi1996distribution}), embedded systems (\cite{voros2009dynamic,van2016model}), hybrid systems (\cite{riverso2016plug,momayyezan2016integrated,wang2016highly}), and manufacturing systems (\cite{ohashi2001model,sanderson2016smart,farid2017measures}).

Some efforts have been also applied to engineer reconfigurable DESs. As an instance, \cite{zhang2015reconfigurable} recommended a coordinated approach to solve the problem. The aforesaid technique stressed mainly on communicational issues among subsystems. Furthermore, it assumes all subsystems equipped with coordinators, which handles the reconfigurations of the system. Moreover, the technique is not computationally scalable; since the dimensions of the considered non-sparse matrices are intractably increased in real complex systems.

\section{Preliminaries}
Supervisory Control Theory \cite{wonham2017supervisory} governs the control of DESs according to the Ramadge-Wonham model \cite{ramadge1987supervisory,wonham2015supervisory}. A DES is formally represented by a generator, say

\bibliographystyle{IEEEtran}
\bibliography{references}{}

\end{document}

以及.bib文件：

@article{wonham2015supervisory,
  title={Supervisory control of discrete-event systems},
  author={Wonham, W Murray},
  journal={Encyclopedia of Systems and Control},
  pages={1396--1404},
  year={2015},
  publisher={Springer}
}

@misc{wonham2017supervisory,
    author = {Wonham, W Murray},
    title = {Supervisory Control of Discrete Event Systems},
    howpublished = {Sys. Control Group, ECE Dept., Univ. of Toronto, Toronto, ON, Canada},
    year={2017 [Online]. Available: http://www.control.toronto.edu/DES/}.
}

@article{ramadge1987supervisory,
    title={Supervisory control of a class of discrete event processes},
    author={Ramadge, Peter J and Wonham, W Murray},
    journal={SIAM journal on control and optimization},
    volume={25},
    number={1},
    pages={206--230},
    year={1987},
    publisher={SIAM}
}

@article{abdelaziz2010distribution,
    title={Distribution system reconfiguration using a modified Tabu Search algorithm},
    author={Abdelaziz, Almoataz Youssef and Mohamed, FM and Mekhamer, SF and Badr, MAL},
    journal={Electric Power Systems Research},
    volume={80},
    number={8},
    pages={943--953},
    year={2010},
    publisher={Elsevier}
}

@article{gomes2006new,
    title={A new distribution system reconfiguration approach using optimum power flow and sensitivity analysis for loss reduction},
    author={Gomes, Fl{\'a}vio Vanderson and Carneiro, Sandoval and Pereira, Jose Luiz R and Vinagre, Marcio Pinho and Garcia, Paulo Augusto Nepomuceno and De Araujo, Leandro Ramos},
    journal={IEEE Transactions on Power Systems},
    volume={21},
    number={4},
    pages={1616--1623},
    year={2006},
    publisher={IEEE}
}

@article{mcdermott1999heuristic,
    title={A heuristic nonlinear constructive method for distribution system reconfiguration},
    author={McDermott, Tom E and Drezga, Irislav and Broadwater, Robert P},
    journal={IEEE Transactions on Power Systems},
    volume={14},
    number={2},
    pages={478--483},
    year={1999},
    publisher={IEEE}
}

@article{sarfi1996distribution,
    title={Distribution system reconfiguration for loss reduction: an algorithm based on network partitioning theory},
    author={Sarfi, RJ and Salama, MMA and Chikhani, AY},
    journal={IEEE Transactions on Power Systems},
    volume={11},
    number={1},
    pages={504--510},
    year={1996},
    publisher={IEEE}
}

@book{voros2009dynamic,
    title={Dynamic System Reconfiguration in Heterogeneous Platforms: The MORPHEUS Approach},
    author={Voros, Nikolaos and Rosti, Alberto and H{\"u}bner, Michael},
    volume={40},
    year={2009},
    publisher={Springer Science \& Business Media}
}

@article{riverso2016plug,
    title={Plug-and-play fault detection and control-reconfiguration for a class of nonlinear large-scale constrained systems},
    author={Riverso, Stefano and Boem, Francesca and Ferrari-Trecate, Giancarlo and Parisini, Thomas},
    journal={IEEE Transactions on Automatic Control},
    volume={61},
    number={12},
    pages={3963--3978},
    year={2016},
    publisher={IEEE}
}

@inproceedings{ohashi2001model,
    title={Model-based control for reconfigurable manufacturing systems},
    author={Ohashi, Kazushi and Shin, Kang G},
    booktitle={Robotics and Automation, 2001. Proceedings 2001 ICRA. IEEE International Conference on},
    volume={1},
    pages={553--558},
    year={2001},
    organization={IEEE}
}

@article{zhang2015reconfigurable,
    title={Reconfigurable coordination of distributed discrete event control systems},
    author={Zhang, Jiafeng and Khalgui, Mohamed and Li, Zhiwu and Frey, Georg and Mosbahi, Olfa and Salah, Hela Ben},
    journal={IEEE Transactions on Control Systems Technology},
    volume={23},
    number={1},
    pages={323--330},
    year={2015},
    publisher={IEEE}
}

@inproceedings{sanderson2016smart,
    title={Smart Manufacturing and Reconfigurable Technologies: Towards an Integrated Environment for Evolvable Assembly Systems},
    author={Sanderson, David and Chaplin, Jack C and De Silva, Lavindra and Holmes, Paul and Ratchev, Svetan},
    booktitle={Foundations and Applications of Self* Systems, IEEE International Workshops on},
    pages={263--264},
    year={2016},
    organization={IEEE}
}

@article{farid2017measures,
    title={Measures of reconfigurability and its key characteristics in intelligent manufacturing systems},
    author={Farid, Amro M},
    journal={Journal of Intelligent Manufacturing},
    volume={28},
    number={2},
    pages={353--369},
    year={2017},
    publisher={Springer}
}

@article{momayyezan2016integrated,
    title={Integrated Reconfigurable Configuration for Battery/Ultracapacitor Hybrid Energy Storage Systems},
    author={Momayyezan, Milad and Abeywardana, Damith B Wickramasinghe and Hredzak, Branislav and Agelidis, Vassilios G},
    journal={IEEE Transactions on Energy Conversion},
    volume={31},
    number={4},
    pages={1583--1590},
    year={2016},
    publisher={IEEE}
}

@article{wang2016highly,
    title={A highly integrated and reconfigurable microgrid testbed with hybrid distributed energy sources},
    author={Wang, Chengshan and Yang, Xianshen and Wu, Zhen and Che, Yanbo and Guo, Li and Zhang, Shuhuai and Liu, Yixin},
    journal={IEEE Transactions on Smart Grid},
    volume={7},
    number={1},
    pages={451--459},
    year={2016},
    publisher={IEEE}
}

@incollection{van2016model,
    title={Model-Based Engineering of Runtime Reconfigurable Networked Embedded Systems},
    author={van Leeuwen, Coen and Rieter-Barrell, Yolanda and Papp, Zoltan and Pruteanu, Andrei and Vogel, Teus},
    booktitle={Runtime Reconfiguration in Networked Embedded Systems},
    pages={1--28},
    year={2016},
    publisher={Springer}
}

更新 2：删除nocite{*}不会改变任何事情。