IP Video Surveillance - Networking Solution Guide_Q313

7/27/2019 IP Video Surveillance - Networking Solution Guide_Q313

1/18

Networking Solutionsfor IP Surveillance


2/18P 2

Beneits o iP surveillance networks ........................................................................................................... 3

iP network comPonents and standards ..................................................................................................... 4

network Planning general considerations ......................................................................................... 6

choosing a switch: Bandwidth & Ports ....................................................................................................... 6

choosing a switch: Power over ethernet .................................................................................................. 7

reerence designs...................................................................................................................................................... 8

20 cameras.................................................................................................................................................... 8

200 cameras................................................................................................................................................. 9

1000 cameras .............................................................................................................................................. 12

managed inrastructure...................................................................................................................................... 16

Table of Contents


3/18P 3

v b iP y z py y y. t

p y b iP , y p py iP .

t y b b ,

y y b , b y p P e (Pe) b .

t y q :

Adeqatebandwidth . t () b b ( p) y, p .

Resilience. t () p ppy p .

Secrity. t b p , py .

t p 20, 200 1000 . B

, , j y iP b b pj y z.

Benefits of iP surveillance networks

iP b y by p, b . ty,

z y iP p pyb. a, p iP y. a , iP y b

z y z. i y b .

iP b bf .

Nonewcabling . t b by x py iP . Pe (p e) b , xp e p b .

Lowerlaborcosts . d - (nas) b by p , p p b - pb

p y.

Moreconvenientviewingaccess . sy p, z p - y 24/7 b. v p b b - .

t p .

Morereliablestorage. u p, p. nas py y y b p b .

Easierintegrationwithapplications . iP y

pp, p y p ,b -- y.

Noriskofobsolescence. a b y , y byb b , iP y -p y b y p,ypy .


4/18P 4

iP network comPonents and standards

n z iP y, y p:

iP v , , p b

c. typy, ( ) Pc qpp b- /

nas

s . t , b y ppp

b py, ppy.

cb. q p, c5e b b .

i p, () , ,

p, b . s

p b b. t b p, p f b q, q .

Transmission Modest b , . m b .

u , -- , .. , . t , -

. i y z , y b py ().

m --y pb bb. i ,

f by iP b , y p . a y by i gp m P (igmP).u p, p b y z . t

p q p:

igmP Q qy b p

igmP sp p p y p, y xz

y. i b p iP6 , igmP Q b p by m l dy (mld) Q mld sp.

gy p, b . a

p, y . h, pp, pb p-

b. B b , x bb py -bp py b -. t by pb 100 p 24/7 q.

m iP b , , .


5/18P 5

Video Compressiona p by p p ,

p b . t :

qy

y

b q

q

t pp . i (y ), y :

mJPeg (-1990)

mPeg4 (1998)

h.264 (2003)

i , j iP ppy .

t p xy p by p . i p , mJPeg

b qy, b q py. mJPeg y , b p p, z (PZt) . netgear pb.

mPeg4 q mJPeg, b qy . (

pp, mPeg4 qy y pb.) h.264 pp mPeg4, b p p q. h.264 py p

.

Securitya p, b xy p q xp y iP .oby, y b p , .. pp -b

p. i , iP py by. t y , . y p Pc p,

b z .

t p , netgear y py q ma c mac . netgear , b p b y z. t p b r (r a d-i u

s) p b p pf mac .


6/18P 6

network Planning general considerations

t p iP f p, b:

SurveillanceRequirements

CameraRequirements

BandwidthRequirements

Switches Video Servers Storage

PowerRequirements

PoE or PoE+vs.

Direct Connect

t q b , b p, ( ) PtZ b yp , b p q- . B q py q.

t ppp (). t y iP () :

b q

b p

p q

choosing a switch: Bandwidth & Ports

netgear m iP :

t netgear i e m4100 . t

e (10/100) gb e (ge) y gb p p .

t netgear nx-g e m5300 . t gb e (ge) b 10 g-

b p (10gbe) p


7/18P 7

d q q.

1. Will the network use Fast Ethernet cameras or Gigabit Ethernet cameras? jy

pp, e . i , - netgear e yb q, b b q. (s q 4.) n e , p , gb p p pp - . s, , py y e y q 10 gb p pb. i gb e

, gb q.

2. What is the average bandwidth required per camera?t f p b , py , p by . i ,

, b y py q. t b y f .

3 How many cameras will be in the network?t y p () pp . n netgear e qpp gb p p

pp.

4. What is the total bandwidth required per switch?t p :

a b p x b = b q (gbp)

t gbp b x

q. a b pp y ( c db ly), p pp b q p b.

choosing a switch: Power over ethernet

m iP p P e (Pe), y y ( 2000) b p b e b , -, p . t b:

Pe p p 15.4w p p , p 12.9w b iP

Pe+ p p 30w, p 25w b iP

t m4100 m5300 y q p , q:

1. Do the cameras require PoE or PoE+?gy p, Pe b q e , Pe+ b q PtZ , gb e .

2. How many watts are required per camera?t y b .

3. How many cameras will be on the network?

4. What is the total wattage requirement?i b :

a p x b = Pe b q

oby, p py Pe b x p q .


8/18P 8

reference designs

t p p y b - -

. e :py, b y

p b b

24/7

y

Reference Design: 20 Camerast b yp 20 , by . i p y yp . t fx, e . i PtZ pb. t 1 gb b

py.

Rest of the Network

CAMERAS (20)

Video Server

M4100-50G-POE

Clients(Viewing Stations)

Copper, Gigabit RJ45

Copper, 10/100 RJ45 PoE

Copper, 10/100 RJ45

M4100-50G-POE+Power

Reset

Fan

RPS

USB 49F50F

PoE (Max 30W perport): O ff =noPD G reen=PoE PoweredYel low=PoE fault RJ45SPD mode: G reen=Li nk at 1G Yellow=Link at 10/100MBlink =ACT

21 43 65 87 109 1211 1413 1615 1817 2019 2221 2423 2625 2827 3029 3231 3433 3635 3837 4039 4241 4443 45 48T47T46

ComboPorts

49T 50T 47F 48F

Max

PoE

SFP SPD/Link /ACTmode: G reen=Link at 1G Yellow=Link at 100MBlink=ACT

P o E S P D 13 14 15 16 17 18 19 20 21 22 23 24121110987654321 3635343332312928272625 30 48T47T464544434140393837 42 50T49T 48F47F 50F49F

t bf :

spy

t b f q, y-- b-b y-

(cli).

t Pe p ( x Pe b 380), p b q.

m B ip

t . t , z b b .

a igmP Q b p b igmP sp -

p p . t y ppp p, y xz y.


9/18P 9

r

r P sppy (rPs) p. t b b-p p ppy p

y 24/7 by.

ex P sppy (esP) p: i p x Pe b, p b pp ePs , b .

sy

t p mac-b y p py , .. p Pc.

a pp ieee 802.1x p-b n a c,

y b p radius w s 2008 n Pys (nPs). w pp, p b b pf mac .

BandwidthandPowerCalclations:20Camerasa b p 9.48 mb/

t b y 9.48 x 20 = 190 mb/

Pe c 1 (x 2.7w)

t Pe b 2.7 x 20 = 54w

KeyNETGEARComponents

s m4100-50-Poe (48 p e Pe 802.3, ly 2+ )

r P sppy rPs5412 (op P -- rPs ) rPs4000(rPs p )

ex P sppy rPs4000 (pp Pe p p )

Reference Design: 200 Camerast 200- b yp y b p , ..

, p , . i iP b vlan b ly 3 px. a b. t

b, / y b b. e -y y, p Pe. a fx, e ( PtZ pb) Pe pby.

t y b p p y. i p

y p . , p b pp p .


10/18P 10

M5300-28GF3

Reset

Stack ID

ComboPorts

Fan

28

27

Power

Combo Ports Green=10GLink Yel low=1G Bl ink =ACT

RJ45 ACTMode:G reen = Link

Blink = ACT

SFP SPD mode:G reen = Link at 1G

Yellow= Link at 100M

Blink = ACT

RJ45 SPD mode:

G reen = Link at 1GYellow= Link at 10/100M

1817 2019 22F21F 24F23F21 43 65 87 109 1211 1413 1615 26F25F 26T25T22T21T 24T23T

1817

2019

22F21F

24F23F

21

43

65

87

109

1211

1413

1615

26F25F

26T25T

22T21T

24T23T

M5300-28GF3M5300-52G3

Rest of the Network

Clients (Viewing Stations)

Gigabit Media Servers

M4100-50G-POE+Power

Reset

Fan

RPS

USB 49F50F

PoE (Max 30W per port): O ff =noPD G reen=PoE PoweredYel low=PoE fault RJ45SPD mode: G reen=Link at 1G Yel low=Link at 10/100MBlink =ACT

21 43 65 87 109 1211 1413 1615 1817 2019 2221 2423 2625 2827 3029 3231 3433 3635 3837 4039 4241 4443 45 48T47T46

ComboPorts

49T 50T 47F 48F

Max

PoE


P o E S P D 13 14 15 16 17 18 19 20 21 22 23 24121110987654321 3635343332312928272625 30 48T47T464544434140393837 42 50T49T 48F47F 50F49F

M4100-50G-POE+Power

Reset

Fan

RPS

USB 49F50F

PoE (Max 30W per port): O ff =noPD G reen=PoE PoweredYell ow=PoE fault RJ45SPD mode: G reen=Li nk at 1G Yellow=Link at 10/100MBlink =ACT

21 43 65 87 109 1211 1413 1615 1817 2019 2221 2423 2625 2827 3029 3231 3433 3635 3837 4039 4241 4443 45 48T47T46

ComboPorts

49T 50T 47F 48F

Max

PoE


P o E S P D 13 14 15 16 17 18 19 20 21 22 23 24121110987654321 3635343332312928272625 30 48T47T464544434140393837 42 50T49T 48F47F 50F49F

M4100-50G-POE+Power

Reset

Fan

RPS

USB 49F50F

PoE (Max 30W per port): O ff =noPD G reen=PoE PoweredYel low=PoE fault RJ45SPD mode: G reen=Link at 1G Yellow=Link at 10/100MBlink =ACT

21 43 65 87 109 1211 1413 1615 1817 2019 2221 2423 2625 2827 3029 3231 3433 3635 3837 4039 4241 4443 45 48T47T46

ComboPorts

49T 50T 47F 48F

Max

PoE


P o E S P D 13 14 15 16 17 18 19 20 21 22 23 24121110987654321 3635343332312928272625 30 48T47T464544434140393837 42 50T49T 48F47F 50F49F

M4100-50G-POE+Power

Reset

Fan

RPS

USB 49F50F

PoE (Max 30W per port): O ff =noPD G reen=PoE PoweredYell ow=PoE fault RJ45SPD mode: G reen=Li nk at 1G Yellow=Link at 10/100MBlink =ACT

21 43 65 87 109 1211 1413 1615 1817 2019 2221 2423 2625 2827 3029 3231 3433 3635 3837 4039 4241 4443 45 48T47T46

ComboPorts

49T 50T 47F 48F

Max

PoE


P o E S P D 13 14 15 16 17 18 19 20 21 22 23 24121110987654321 3635343332312928272625 30 48T47T464544434140393837 42 50T49T 48F47F 50F49F

M5300-52G3

Reset

Stack ID

ComboPorts

RJ45SPDMode:Green=Linkat1GYellow =Linkat10/100MRJ45ACTmode:Green=LinkBlink=ACT

Fan

52

51

Power

4039 4241 4443 46T45T38

38 4039 4241 4443 46T45T 48T47T37

37

SP D ACT

43 65 87 109 12112

2 43 65 87 109 12111

1615 1817 2019 2221 242314

14 1615

1817

2019

2221

242313

13 2827 3029 3231 3433 363526

26 2827

3029

3231

3433

363525

25 48T47T 46F45F 48F47F 50F49F 50T49T

50T49T46F45F 48F47F 50F49F

SFPSPDmode:Green=Linkat1GYellow =Linkat100MBlink=Act Combo Ports Green=10GLink Yel low=1G Bl ink=ACT

1

M5300-52G3

Reset

Stack ID

ComboPorts

RJ45SPDMode:Green=Linkat1GYellow =Linkat10/100MRJ45ACTmode:Green=LinkBlink=ACT

Fan

52

51

Power

4039 4241 4443 46T45T38

38 4039 4241 4443 46T45T 48T47T37

37

SP D ACT

43 65 87 109 12112

2 43 65 87 109 12111

1615 1817 2019 2221 242314

14 1615 1817 2019 2221 242313

13 2827 3029 3231 3433 363526

26 2827 3029 3231 3433 363525

25 48T47T 46F45F 48F47F 50F49F 50T49T

50T49T46F45F 48F47F 50F49F

SFPSPDmode:Green=Linkat1GYellow =Linkat100MBlink=Act Combo Ports Green=10GLink Yel low=1G Bl ink=ACT

1

M4100-50G-POE

M4100-50G-POE+

Power

Reset

Fan

RPS

USB 49F 50F

PoE (Max 30W per port): O ff =noPD G reen=PoE PoweredYellow=PoE faul t RJ45SPD mode: G reen=Link at 1G Yellow=Link at 10/100MBlink =ACT

21 43 65 87 109 1211 1413 1615 1817 2019 2221 2423 2625 2827 3029 3231 3433 3635 3837 4039 4241 4443 45 48T47T46

ComboPorts

49T 50T 47F 48F

MaxPoE


P o E S P D 13 14 15 16 17 18 19 20 21 22 23 24121110987654321 3635343332312928272625 30 48T47T464544434140393837 42 50T49T 48F47F 50F49F

CAMERAS (40) CAMERAS (40) CAMERAS (40) CAMERAS (40) CAMERAS (40)

M5300-28GF3

Reset

Stack ID

ComboPorts

Fan

28

27

Power

Combo Ports Green=10GLink Yel low=1G Bl ink =ACT

RJ45 ACTMode:G reen = Link

Blink = ACT

SFP SPD mode:G reen = Link at 1G

Yellow= Link at 100MBlink = ACT

RJ45 SPD mode:G reen = Link at 1G

Yellow= Link at 10/100M

1817 2019 22F21F 24F23F21 43 65 87 109 1211 1413 1615 26F25F 26T25T22T21T 24T23T

1817 2019 22F21F 24F23F21 43 65 87 109 1211 1413 1615 26F25F 26T25T22T21T 24T23T

Fiber, 1000SX multimode

Copper, Gigabit RJ45

Copper, 10/100 RJ45

Copper, 10GBASE-T RJ45

t bf :

spy

t p vlan pby netgear py y p ly 2 . t ly

3 .

w dy h cf P (dhcP) , y p it p,

b netgear , f y .t sp t P, px f. t -

y db y b b - y , b pb p

a m vlan r (mvr) p b y b , p b- b (igmP Q-

sp) pb/bb . t px / .


11/18P 11

m B ip

t p vlan pby netgear

, y b. e --

b z.

t z b p, igmP Q b p -b igmP sp p p . t

y ppp p, y xz y.

t sp t P b b, b b.

r

r P spp (rPs). i qpp rsP y p ppy . t pp b p -- b netgear rPs5412

p pp b. i , netgearrPs4000 b p p y . t p ppy

db y b pp p .

ex P spp (esP). i p q by 380 p by m4100-50-Poe, b pp netgear ePs , p y 740 .

r s. t , b ( m5300-28g3

m5300-52g3 ) b- p.

sy

mac-b p y (mac b ) p y by p

Pc p pp.

a pp ieee 802.1x p-b n a c, y b p radius w s 2008 n Py s

(nPs) mac byp (maB). w pp, p b b pf mac .

B b , y .

BandwidthandPowerCalclations:200Cameras

a b p 21.7 mb/

t b y 9.48 x 20 = 190 mb/

Pe c 1 (x 2.7w)

t Pe b 2.7 x 20 = 54w


db ly s m5300-28g3 (24 p gb e b 10 gb p, ly 3)

a ly s m4100-50-Poe (48 p e Pe 802.3, ly 2+ )

r s m5300-52g3 (48 p gb e 10 gb p, ly 3)

r P sppy rPs5412 (op P -- rPs ) rPs4000 (rPs p )



12/18P 12

Reference Design: 1000 Camerast 1,000-p b y 12 q ,

p. i fb p b b . i q iP b , vlan b ly 3 px

y. t / y b b .

e qpp 48-p m5300-52g-Poe+ gb y. t p 96 p . i p Pe. a fx, e ( PtZ pb) Pe pby.

a b y, y Xsm7224s 10 gb

p b ( 10 gb p py ) 40gb/ ( ) y b .

t b y ,

. B / y b p , p osP , igmP p bp Pim p- .

t y b p p y. i p y p q y. ,

p b pp p .


13/18


14/18P 14

t bf :

spy

t p vlan pby netgear py y p ly 2 . t ly

3 .

w dy h cf P (dhcP) , y p it p, b netgear , f y .

t sp t P, px f. t

y db y b b y , b pb p

m B ip

t p vlan pby netgear

, y b. e -- b z.

t z b p, igmP Q b p

b igmP sp p p . t y ppp p, y xz y.

t sp t P b b, b b.

r

s y. t b y p y < . t

y py b y p y b y y .

r P spp (rPs). t - b py . t, p p rPs netgear rPs4000 y

p ppy . e rPs4000 p p y .t p ppy db y aPs300w p

- y. i b pp y .

ex P spp (esP). i p q by 380 p by m5300-52g-Poe+, b pp rPs4000 ePs , p y p 1,440

.

r . t 10 gb y b y , q b y . a b b p y y b y

y .


15/18P 15

sy

mac-b p y (mac b ) p y by p

Pc p pp.

a pp ieee 802.1x p-b n a c, y b p radius w s 2008 n Py s(nPs) mac byp (maB). w pp, p b b

pf mac .

t vlan y b y z p (acl) p y.

B b , y

.

i p , b .

BandwidthandPowerCalclations:AccessSbnetBANDWIDTH

a b p 33.9 mb/

t b q 96 b p (.. p q p ):

3.25 gb/

t b q ( 48 ) 3.25 gb/

ay: t 48-p gb q p , 1.63 gb/ p pby. a 1 gb

p 1.63 gb/, 10 gb q. t 10 g-b p y y. t 10 gb ,

48 .

a b y, 24 p 10 gb e sP+ p 480 gb/ bpy.

POWER

Pe c 3 (x 9)

t Pe b p 9 x 96 = 864

ay: w y p , p 432 Pe. i , 380 Pe b. t b xp by x/rs4000 p ppy (ePs/rPs) b b p 1,440. t, p

q y p b p.

P b y p by pp aPs300w p ppy.


16/18P 16


db ly s Xsm7224s (m7300-24X 24 p 10 gb sP+

10gBase-t p, ly 2+) Xsm7224l ly 3 p

a ly s m5300-52g-Poe+ (48 p gb e Pe+ 802.3 10 gb p, ly 2+)

r s m5300-52g3 (48 p gb e 10 gb p-, ly 3)

r P sppy rPs4000 (rPs p )


managed infrastructurenetgear m s , -p iP y py -z z p . netgear m s y- ; pp; 3-y p n a,

ep a . m b ../ .

CoreM8800series

Chassis 1G/10GL3

10G Aggregation

Stackable 10GL3

Standalone 10G

Access

Stackable 1G/10GL3

Standalone 100M/1G

L2+

L2+

L2+

L2+

L2+ M7300series

M7100series

M5300series

M4100series
http://www.netgear.com/managedhttp://www.netgear.com/managed


17/18P 17

NETGEARSWITCHINGSOLuTIONS

P n m8800-06 m8800-10 m7300-24Xf m7100-24X m5300-28g m5300-52g

o nb Xcm8806 Xcm8810 Xsm7224s Xsm7224 gsm7228s gsm7252s

rJ45 Pup 240 x

10/100/1000up 432 x

10/100/10004 x 10gBase-t 24 x 10gBase-t

24 x 10/100/1002 x 10gBase-t

(mx: 4)

48 x 10/100/1002 x 10gBase-t

(mx: 4)

b sP+(1000/10g)

up 40 x XP up 72 x XP 24 x sP+ 4 x sP+ 2 x sP+ (mx: 4) 2 x sP+ (mx: 4)

b sP (100/1000) up 128 x sP up 224 x sP - - 4 x sP 4 x sP

P eup 240 x Pe

802.3up 432 x Pe

802.3- - -

Pe B (w) up 5,000w up 5,000w - - -

r

P sppy n+1 Psu n+1 Psu d p Psu d p Psu rPs + m Psu rPs + m Psu

s ly 3

op c l

ly 3

op c l

ly 2+( )

op l3 l

ly 2+( )

ly 2+( )

op l3 l

ly 2+( )

op l3 l

c 10u c 14ur 1u

sbr 1u

sr 1u

sbr 1u

sb

P n m5300-28g-Poe+ m5300-52g-Poe+ m5300-28g3 m5300-52g3 m5300-28gf3 m4100-d10-Poe

o nb gsm7228Ps gsm7252Ps gsm7328s gsm7352s gsm7328fs fsm5210P

rJ45 P24 x 10/100/100

2 x 10gBase-t(mx: 4)

48 x 10/100/1002 x 10gBase-t

(mx: 4)

24 x 10/100/1002 x 10gBase-t

(mx: 4)

48 x 10/100/1002 x 10gBase-t

(mx: 4)

4 x 10/100/1002 x 10gBase-t

(mx: 4)

8 x 10/1002 x 10/100/1000

b sP+(1000/10g) 2 x sP+ (mx: 4) 2 x sP+ (mx: 4) 2 x sP+ (mx: 4) 2 x sP+ (mx: 4) 2 x sP+ (mx: 4)

b sP (100/1000) 4 x sP 4 x sP 4 x sP 4 x sP 24 x sP 2 x sP

P e 24 x Pe+ 802.3 48 x Pe+ 802.3 - - 8 x Pe 802.3

Pe B (w) 380w/720w ePs 380w/1,440w ePs - - 66w

rP sppy

rPs + m Psu rPs + m Psu rPs + m Psu rPs + m Psu rPs + m Psu -

s

ly 2+( )

op l3l

ly 2+( )

op l3l

ly 3 ly 3 ly 3ly 2+

( )

r 1u

sbr 1u

sbr 1u

sbr 1u

sbr 1u

sbdp


18/18

P n m4100-26-Poe m4100-50-Poe m4100-d12g m4100-d12g-Poe+ m4100-12gf m4100-12g-Poe+

o nb fsm7226P fsm7250P gsm5212 gsm5212P gsm7212f gsm7212P

rJ45 P24 x 10/100

2 x 10/100/100048 x 10/100

2 x 10/100/100012 x10/100/1000 12 x 10/100/1000 12 x 10/100/1000 12 x 10/100/1000

b sP (100/1000) 2 x sP 2 x sP 2 x sP 4 x sP 12 x sP 4 x sP

P e(Pe/Pe+)

24 x Pe 802.3 48 x Pe 802.3 10 x Pe+ 802.3

4 x Pe+ 802.3 12 x Pe+ 802.3

Pe B (w) 380w 380w/740w ePs 125w 150w 380w

rP sppy

rPs rPs Pd m Pd m rPs rPs

P by Pe+(P)

- -1 x Pe+ 30w

p 2 x Pe+ 30w p c b 25w

- -

sly 2+

( )ly 2+

( )ly 2+

( )ly 2+

( )ly 2+

( )ly 2+

( )

r 1u

sr 1u

sdp dp

r 1us

r 1us

P n m4100-26g m4100-50g m4100-26g-Poe m4100-24g-Poe+ m4100-50g-Poe+ rPs/ePs u

o nb gsm7224 gsm7248 gsm7226lP gsm7224P gsm7248P rPs4000

rJ45 P 26 x 10/100/1000 50 x 10/100/1000 26 x 10/100/1000 24 x 10/100/1000 50 x 10/100/1000 p 4

b sP (100/1000) 4 x sP 4 x sP 4 x sP 4 x sP 4 x sP p 4

P e(Pe/Pe+)

24 x Pe 802.3 24 x Pe+ 802.3 48 x Pe+ 802.3aPs1000wb

Pe B (w) 192w/380w ePs 380w/720w ePs 380w/1,440w ePsup 2,8880w

b

r

P sppy rPs rPs rPs rPs rPs rPs ePs

sly 2+

( )ly 2+

( )ly 2+

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IP Video Surveillance - Networking Solution Guide_Q313

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