WSN presentation

1. Group Members:
Tamarani C S Anantha Raman - 2004272
Atul Yadav - 2004318
Sarvesh Pandaji - 2004345
Nikhil Raj - 2104804
B.tech in Electronics & Telecommunication

2. Contents
● Introduction
● How does NTP synchronize?
● Why NTP is important?
● Features of NTP
● Advantages of NTP
● Disadvantages of NTP
● What is spectrum level
● Conclusion

3. Introduction
Network Time Protocol (NTP) is a protocol that allows
the synchronization of system clocks (from desktops to
servers). Having synchronized clocks is not only
convenient but required for many distributed
applications. Therefore the firewall policy must allow
the NTP service if the time comes from an external
server.It networking protocol for clock synchronization
between computer systems over packet-switched,
variable-latency data networks. In operation since
before 1985, NTP is one of the oldest Internet
protocols in current use. NTP was designed by David
L. Mills of the University of Delaware.

4. How does NTP synchronize?
The following steps implicate the NTP time synchronization:
● It initiates a time-request exchange with the server.
● The client can calculate the link uncertainty and adjust its local clock to match the clock on the
server’s device.
● According to the convention, six exchanges for approximately 5 to 10 minutes are necessary to set the
clock.
Once synchronized, the client can update the clock every 10 minutes, requiring a single message exchange in
expansion to client-server synchronization. This transaction surfaces via User Datagram Protocol (UDP) on
port 123 and sustains broadcast synchronization of peer computer clocks.

5. Why NTP is important?
NTP is necessary as accurate time for all
gadgets on a network decreases discrepancies,
for even a fraction of a second, as it can cause
networking concerns.It prevents fractions of
errors or vulnerabilities in information
exchange between clients via the server. NTP
has adjustment techniques that resolve every
time error, no matter how slight it is. This
prevents possible mistakes and
vulnerabilities. It ensures consistent and
continuous timekeeping for file servers

6. Features of NTP
1. Time synchronization: NTP provides highly accurate and reliable time synchronization
across a network, ensuring that all devices have consistent and precise time.
2. Hierarchical architecture: NTP uses a hierarchical architecture, where multiple levels of
servers are used to distribute time. This helps to minimize network traffic and reduce the
load on individual servers.
3. Redundancy: NTP supports redundancy, where multiple time servers can be used to
provide time synchronization. This ensures that if one server fails, there are other servers
available to maintain synchronization.
4. Precision: NTP supports sub-millisecond accuracy, making it suitable for time-sensitive
applications such as financial transactions and scientific experiments.

7. Advantages of NTP
1. Accuracy: NTP provides a highly accurate and reliable time synchronization mechanism,
which ensures that all devices on the network have consistent and precise time.
2. Flexibility: NTP can be used in a wide range of network configurations, from small local
area networks to large-scale distributed systems, and supports a variety of synchronization
sources such as GPS, atomic clocks, and internet time servers.
1. Security: NTP has built-in security features that protect against time spoofing and other
malicious activities, such as authenticated encryption and digital signatures.
1. Efficiency: NTP uses a hierarchical model that reduces network traffic and minimizes the
load on time servers, making it an efficient and scalable protocol for time synchronization.

8. Disadvantages of NTP
1. Vulnerability: NTP can be vulnerable to attacks such as amplification attacks and denial of
service attacks, which can disrupt time synchronization and affect network performance.
1. Complexity: NTP can be complex to configure and manage, especially in large and
complex network environments, which can make it challenging for less experienced
administrators to implement effectively.
1. Compatibility: Some older devices or software may not support the latest versions of NTP,
which can create compatibility issues and limit the effectiveness of time synchronization.
1. Dependence: NTP is a critical protocol for maintaining accurate time synchronization, and
any disruptions or failures can cause significant problems for network performance and
reliability.

9. What is spectrum level
1. Stratum 0: This is the ground-zero clock that
receives the true UTC from the satellite system
designed specifically to transmit this “true time.” For
this reason, stratum 0 clocks are the original and
reference clocks for all clocks. Examples are the
Atomic Clock and GPS Clock.
2. Stratum 1: These are computer devices/systems
directly linked to Stratum 0 to receive true time.
3. Stratum 2: These time servers get their true time
from Stratum 1.
4. Stratum 3: These computer devices are linked to and
get their true time from Stratum 2 servers.
The NTP hierarchy continues down the ranks, and time
accuracy is reduced as it progresses down the ranks.
There are altogether 16 strata in the NTP hierarchy;
strata 16 indicates an unsynchronized device.

10. Conclusion
A listening Bug which is made using IC 741 is of great utility, especially in
case of surveillance, espionage, and police investigations. It helps them to
gather confidential information without other person's knowledge and thereby
helping tracking down the culprit or reinforcing the nation's security. Also, it is
small thus can be easily hidden and most importantly being wired it has the
utmost clarity which wireless cannot provide.