Survivability Standard Techniques Implementation in Fiber Optic Networks (SSTIFON)—An Overview K. V. S. S. S. S. Sairam and Chandra Singh Abstract In communication networks, survivability is a vital factor in Analyzing and Designing Techniques in Fiber Optic Networks (ADTFON). These aspects deter- mine the Restoration Throughput (RT) and Redundant Protection Strategy (RPS). These techniques include Ring-Based Architecture (RBA) toward Path Segment (PS) and Path Restoration (PR). This paper focuses on different architectures that facil- itate the High Impact Economical Factor (HIEF) of High Capacity Fiber System Equipment (HCFSE) needed for Signal Transport (ST) Mechanism. Keywords FONI · DS-N · OC-N · FUSR · DCC · FNA · ONA · PRM 1 Introduction Survivability resists any disturbance of physical or natural disaster preferably by EMI [1]. Fiber optic communication deals with the high bandwidth. In this fiber network architecture the uses feasible high-capacity fiber system with an High Impact Economical Factor (HIEF) via routing strategy that is from central office or hub [2]. The constructivity of Fiber Network Survivability Planning and Designing (FNSPD) deals with impedent, instant establishment, invigorating through a potential design and restoration aspects [3]. FNSPD can be divided into two categories, namely (A) Transport Restoration (B) Competence Transport Transport restoration is applied to Switched Network, whereas competence trans- port is applied to Competence Transport Network. It involves routing in the form K. V. S. S. S. S. Sairam (B ) · C. Singh Department of E&CE, NMAM Institute of Technology, Nitte, Karkala Taluk, Karnataka, India e-mail: drsairam@nitte.edu.in C. Singh e-mail: chandrasingh146@gmail.com © Springer Nature Singapore Pte Ltd. 2020 V. Janyani et al. (eds.), Optical and Wireless Technologies, Lecture Notes in Electrical Engineering 546, https://doi.org/10.1007/978-981-13-6159-3_3 19